dataset of thermodynamic data for gwb programs dataset format: jul22 activity model: sit fugacity model: tsonopoulos * * ++++++++++++++++++++++++++++++++++++++++++++++++++++ * ++++++++++++++++++++++++++++++++++++++++++++++++++++ * * ThermoChimie is a thermodynamic database created and developed by * Andra (French National Radioactive Waste Management Agency), * Radioactive Waste Management Limited (NDA, UK), and Ondraf/Niras * (National Agency for Radioactive Waste Management, Belgium). * * This is ThermoChimie's SIT model thermodynamic dataset, version 10a. * The dataset was converted to GWB format from the PhreeqC-format * dataset available on thermochimie-tdb.com/ using TEdit in GWB Release 15. * * ThermoChimie is designed to be applied over the 6 - 14 pH range at * temperatures below 80 C and in systems with an Eh in the range -0.5V * to +0.5V, since these are the conditions generally expected within * radioactive waste repositories. * * Notes: * * The temperature dependence of log Ks is described with a polynomial * containing up to six coefficients a-f spread over two lines: * * log K = a + b*(Tk-Tr) + c*(Tk2-Tr2) + d*(1/Tk - 1/Tr) + e*(1/Tk2 - 1/Tr2) * + f*ln(Tk/Tr) * * where Tk is absolute temperature and Tr is 298.15 K. Hence, if c-f are * zero (or omitted), then b is the first temperature derivative. * * GWB Log K polynomial coefficients a-f were converted from coefficients * A1-A6 in PhreeqC's analytic expression as follows: * * a= log10 K(298.15 K) = A1 + A2*Tr + A3/Tr + A4*log10(Tr) + A5/Tr2 + A6*Tr2 * b= A2 * c= A6 * d= A3 * e= A5 * f= A4/ln(10) * * Lacking an analytical expression, the log K at 25 C in PhreeqC was used, * with the standard enthalpy change when available, as follows: * * a= log10 K(298.15 K) * b= 0 * c= 0 * d= -delta_h/(R*ln(10)) * e= 0 * f= 0 * * where delta_h is the standard enthalpy of reaction in kJ/mol and R is the * gas constant in kJ/(mol K). * * A temperature range of validity may optionally be set for each reaction. * If no range is set, the span of the principal temperatures is assumed. * * The principal temperatures and constants in the header section * (Debye-Huckel A and B, pressures) are taken from ThermoChimie's GWB-format * Bdot model dataset. Note, the recommended upper temperature limit (80 C) is * considerably lower than the range enforced by the GWB programs based on the * chosen range of principal temperatures (0-300 C). * * Species O2 has been renamed O2(aq), as expected by the GWB programs. * * Species' names have been converted to the GWB format. For example, Ca++ replaces * Ca+2. * * Several fictitious elements used in organic compounds in the basis species * section have been removed and replaced with actual elements. For example, * the basis species Acetate- is now composed of 2 C, 3 H, and 2 O, rather than * 1 Ac. * * Suffixes (e.g. (aq) and (s)) have been added where species names were duplicated. * * Formulae have been added for many species and minerals (e.g. CH3COO- for Acetate-). * * Oxide components have been added. * * Factors have been added for evaluating gas fugacity coefficients. * * To the best of our knowledge, this dataset is not subject to copyright. * * ++++++++++++++++++++++++++++++++++++++++++++++++++++ * ++++++++++++++++++++++++++++++++++++++++++++++++++++ * temperatures 0.0000 25.0000 60.0000 100.0000 150.0000 200.0000 250.0000 300.0000 * pressures 1.0134 1.0134 1.0134 1.0134 4.7600 15.5490 39.7760 85.9270 * debye huckel a (adh) .4913 .5092 .5450 .5998 .6898 .8099 .9785 1.2555 * debye huckel b (bdh) .3247 .3283 .3343 .3422 .3533 .3655 .3792 .3965 53 elements Silver (Ag) mole wt.= 107.8682 g Aluminum (Al) mole wt.= 26.9815 g Americium (Am) mole wt.= 243.0000 g Arsenic (As) mole wt.= 74.9216 g Boron (B ) mole wt.= 10.8110 g Barium (Ba) mole wt.= 137.3270 g Bromine (Br) mole wt.= 79.9040 g Calcium (Ca) mole wt.= 40.0780 g Cadmium (Cd) mole wt.= 112.4110 g Chlorine (Cl) mole wt.= 35.4527 g Curium (Cm) mole wt.= 247.0000 g Cobalt (Co) mole wt.= 58.9332 g Chromium (Cr) mole wt.= 51.9961 g Cesium (Cs) mole wt.= 132.9054 g Copper (Cu) mole wt.= 63.5460 g Europium (Eu) mole wt.= 151.9650 g Fluorine (F ) mole wt.= 18.9984 g Iron (Fe) mole wt.= 55.8470 g Hafnium (Hf) mole wt.= 178.4900 g Holmium (Ho) mole wt.= 164.9303 g Iodine (I ) mole wt.= 126.9045 g Potassium (K ) mole wt.= 39.0983 g Lithium (Li) mole wt.= 6.9410 g Magnesium (Mg) mole wt.= 24.3050 g Manganese (Mn) mole wt.= 54.9380 g Molybdenum (Mo) mole wt.= 95.9400 g Sodium (Na) mole wt.= 22.9898 g Niobium (Nb) mole wt.= 92.9064 g Nickel (Ni) mole wt.= 58.6900 g Neptunium (Np) mole wt.= 237.0480 g Protactinium (Pa) mole wt.= 231.0359 g Lead (Pb) mole wt.= 207.2000 g Palladium (Pd) mole wt.= 106.4200 g Plutonium (Pu) mole wt.= 244.0000 g Phosphorus (P ) mole wt.= 30.9738 g Radium (Ra) mole wt.= 226.0250 g Rubidium (Rb) mole wt.= 85.4678 g Antimony (Sb) mole wt.= 121.7600 g Nitrogen (N ) mole wt.= 14.0067 g Sulfur (S ) mole wt.= 32.0660 g Selenium (Se) mole wt.= 78.9600 g Silicon (Si) mole wt.= 28.0855 g Samarium (Sm) mole wt.= 150.3600 g Tin (Sn) mole wt.= 118.7100 g Strontium (Sr) mole wt.= 87.6200 g Carbon (C ) mole wt.= 12.0110 g Hydrogen (H ) mole wt.= 1.0079 g Oxygen (O ) mole wt.= 15.9990 g Technetium (Tc) mole wt.= 98.0000 g Thorium (Th) mole wt.= 232.0381 g Uranium (U ) mole wt.= 238.0289 g Zinc (Zn) mole wt.= 65.3900 g Zirconium (Zr) mole wt.= 91.2200 g -end- 69 basis species H2O charge= 0 ion size= 0.0 A mole wt.= 18.0148 g 2 elements in species 2.000 H 1.000 O H+ charge= 1 ion size= 0.0 A mole wt.= 1.0079 g 1 elements in species 1.000 H Acetate- formula= CH3COO- charge= -1 ion size= 0.0 A mole wt.= 59.0437 g 3 elements in species 2.000 C 3.000 H 2.000 O Adipate-- formula= (CH2)4(COO)2-- charge= -2 ion size= 0.0 A mole wt.= 144.1252 g 3 elements in species 6.000 C 8.000 H 4.000 O Ag+ charge= 1 ion size= 0.0 A mole wt.= 107.8682 g 1 elements in species 1.000 Ag Al+++ charge= 3 ion size= 0.0 A mole wt.= 26.9815 g 1 elements in species 1.000 Al Am+++ charge= 3 ion size= 0.0 A mole wt.= 243.0000 g 1 elements in species 1.000 Am AsO4--- charge= -3 ion size= 0.0 A mole wt.= 138.9176 g 2 elements in species 1.000 As 4.000 O B(OH)4- charge= -1 ion size= 0.0 A mole wt.= 78.8386 g 3 elements in species 1.000 B 4.000 H 4.000 O Ba++ charge= 2 ion size= 0.0 A mole wt.= 137.3270 g 1 elements in species 1.000 Ba Br- charge= -1 ion size= 0.0 A mole wt.= 79.9040 g 1 elements in species 1.000 Br CO3-- charge= -2 ion size= 0.0 A mole wt.= 60.0080 g 2 elements in species 1.000 C 3.000 O Ca++ charge= 2 ion size= 0.0 A mole wt.= 40.0780 g 1 elements in species 1.000 Ca Cd++ charge= 2 ion size= 0.0 A mole wt.= 112.4110 g 1 elements in species 1.000 Cd Cit--- formula= COOCH2COHCOOCH2COO--- charge= -3 ion size= 0.0 A mole wt.= 189.0985 g 3 elements in species 6.000 C 5.000 H 7.000 O Cl- charge= -1 ion size= 0.0 A mole wt.= 35.4527 g 1 elements in species 1.000 Cl Cm+++ charge= 3 ion size= 0.0 A mole wt.= 247.0000 g 1 elements in species 1.000 Cm Cn- formula= CN- charge= -1 ion size= 0.0 A mole wt.= 26.0177 g 2 elements in species 1.000 C 1.000 N Co++ charge= 2 ion size= 0.0 A mole wt.= 58.9332 g 1 elements in species 1.000 Co CrO4-- charge= -2 ion size= 0.0 A mole wt.= 115.9921 g 2 elements in species 1.000 Cr 4.000 O Cs+ charge= 1 ion size= 0.0 A mole wt.= 132.9054 g 1 elements in species 1.000 Cs Cu++ charge= 2 ion size= 0.0 A mole wt.= 63.5460 g 1 elements in species 1.000 Cu Edta---- formula= (CH2COO)4N(CH2)2N---- charge= -4 ion size= 0.0 A mole wt.= 288.2102 g 4 elements in species 10.000 C 12.000 H 2.000 N 8.000 O Eu+++ charge= 3 ion size= 0.0 A mole wt.= 151.9650 g 1 elements in species 1.000 Eu F- charge= -1 ion size= 0.0 A mole wt.= 18.9984 g 1 elements in species 1.000 F Fe++ charge= 2 ion size= 0.0 A mole wt.= 55.8470 g 1 elements in species 1.000 Fe H2(PO4)- charge= -1 ion size= 0.0 A mole wt.= 96.9856 g 3 elements in species 2.000 H 4.000 O 1.000 P H4(SiO4) charge= 0 ion size= 0.0 A mole wt.= 96.1131 g 3 elements in species 4.000 H 4.000 O 1.000 Si HGlu- formula= HOCH2(CHOH)4COO- charge= -1 ion size= 0.0 A mole wt.= 195.1459 g 3 elements in species 6.000 C 11.000 H 7.000 O HIsa- formula= C6H11O6- charge= -1 ion size= 0.0 A mole wt.= 179.1469 g 3 elements in species 6.000 C 11.000 H 6.000 O Hf++++ charge= 4 ion size= 0.0 A mole wt.= 178.4900 g 1 elements in species 1.000 Hf Ho+++ charge= 3 ion size= 0.0 A mole wt.= 164.9303 g 1 elements in species 1.000 Ho I- charge= -1 ion size= 0.0 A mole wt.= 126.9045 g 1 elements in species 1.000 I K+ charge= 1 ion size= 0.0 A mole wt.= 39.0983 g 1 elements in species 1.000 K Li+ charge= 1 ion size= 0.0 A mole wt.= 6.9410 g 1 elements in species 1.000 Li Malonate-- formula= CH2(COO)2-- charge= -2 ion size= 0.0 A mole wt.= 102.0448 g 3 elements in species 3.000 C 2.000 H 4.000 O Mg++ charge= 2 ion size= 0.0 A mole wt.= 24.3050 g 1 elements in species 1.000 Mg Mn++ charge= 2 ion size= 0.0 A mole wt.= 54.9380 g 1 elements in species 1.000 Mn MoO4-- charge= -2 ion size= 0.0 A mole wt.= 159.9360 g 2 elements in species 1.000 Mo 4.000 O NO3- charge= -1 ion size= 0.0 A mole wt.= 62.0037 g 2 elements in species 1.000 N 3.000 O Na+ charge= 1 ion size= 0.0 A mole wt.= 22.9898 g 1 elements in species 1.000 Na Nb(OH)6- charge= -1 ion size= 0.0 A mole wt.= 194.9478 g 3 elements in species 6.000 H 1.000 Nb 6.000 O Ni++ charge= 2 ion size= 0.0 A mole wt.= 58.6900 g 1 elements in species 1.000 Ni NpO2++ charge= 2 ion size= 0.0 A mole wt.= 269.0460 g 2 elements in species 1.000 Np 2.000 O Nta--- formula= N(CH2COO)3--- charge= -3 ion size= 0.0 A mole wt.= 188.1141 g 4 elements in species 6.000 C 6.000 H 1.000 N 6.000 O Ox-- formula= (COO)2-- charge= -2 ion size= 0.0 A mole wt.= 88.0180 g 2 elements in species 2.000 C 4.000 O Pa++++ charge= 4 ion size= 0.0 A mole wt.= 231.0359 g 1 elements in species 1.000 Pa Pb++ charge= 2 ion size= 0.0 A mole wt.= 207.2000 g 1 elements in species 1.000 Pb Pd++ charge= 2 ion size= 0.0 A mole wt.= 106.4200 g 1 elements in species 1.000 Pd Phthalat-- formula= C6H4(COO)2-- charge= -2 ion size= 0.0 A mole wt.= 164.1156 g 3 elements in species 8.000 C 4.000 H 4.000 O PuO2++ charge= 2 ion size= 0.0 A mole wt.= 275.9980 g 2 elements in species 2.000 O 1.000 Pu Pyrophos---- formula= P2O7---- charge= -4 ion size= 0.0 A mole wt.= 173.9406 g 2 elements in species 7.000 O 2.000 P Ra++ charge= 2 ion size= 0.0 A mole wt.= 226.0250 g 1 elements in species 1.000 Ra Rb+ charge= 1 ion size= 0.0 A mole wt.= 85.4678 g 1 elements in species 1.000 Rb SO4-- charge= -2 ion size= 0.0 A mole wt.= 96.0620 g 2 elements in species 4.000 O 1.000 S Sb(OH)3 charge= 0 ion size= 0.0 A mole wt.= 172.7807 g 3 elements in species 3.000 H 3.000 O 1.000 Sb Scn- formula= SCN- charge= -1 ion size= 0.0 A mole wt.= 58.0837 g 3 elements in species 1.000 C 1.000 N 1.000 S SeO4-- charge= -2 ion size= 0.0 A mole wt.= 142.9560 g 2 elements in species 4.000 O 1.000 Se Sm+++ charge= 3 ion size= 0.0 A mole wt.= 150.3600 g 1 elements in species 1.000 Sm Sn++ charge= 2 ion size= 0.0 A mole wt.= 118.7100 g 1 elements in species 1.000 Sn Sr++ charge= 2 ion size= 0.0 A mole wt.= 87.6200 g 1 elements in species 1.000 Sr Suberate-- formula= (CH2)6(COO)2-- charge= -2 ion size= 0.0 A mole wt.= 172.1788 g 3 elements in species 8.000 C 12.000 H 4.000 O Succinat-- formula= (CH2)2(COO)2-- charge= -2 ion size= 0.0 A mole wt.= 116.0716 g 3 elements in species 4.000 C 4.000 H 4.000 O TcO(OH)2 charge= 0 ion size= 0.0 A mole wt.= 148.0128 g 3 elements in species 2.000 H 3.000 O 1.000 Tc Th++++ charge= 4 ion size= 0.0 A mole wt.= 232.0381 g 1 elements in species 1.000 Th UO2++ charge= 2 ion size= 0.0 A mole wt.= 270.0269 g 2 elements in species 2.000 O 1.000 U Zn++ charge= 2 ion size= 0.0 A mole wt.= 65.3900 g 1 elements in species 1.000 Zn Zr++++ charge= 4 ion size= 0.0 A mole wt.= 91.2200 g 1 elements in species 1.000 Zr O2(aq) charge= 0 ion size= 0.0 A mole wt.= 31.9980 g 1 elements in species 2.000 O -end- 34 redox couples Am++ charge= 2 ion size= 0.0 A mole wt.= 243.0000 g 2 species in reaction 1.000 Am+++ 1.000 e- * log10 K(298 K) = 38.8801 a= 38.88012178 b= 0 c= 0 d= 13689.2 e= 0 f= 0 Am++++ charge= 4 ion size= 0.0 A mole wt.= 243.0000 g 2 species in reaction 1.000 Am+++ -1.000 e- * log10 K(298 K) = 44.2100 a= 44.20996327 b= 0 c= 0 d= 11005.6 e= 0 f= 0 AmO2+ charge= 1 ion size= 0.0 A mole wt.= 274.9980 g 4 species in reaction -4.000 H+ 1.000 Am+++ -2.000 e- 2.000 H2O * log10 K(298 K) = 58.3700 a= 58.36996633 b= 0 c= 0 d= 20062.9 e= 0 f= 0 AmO2++ charge= 2 ion size= 0.0 A mole wt.= 274.9980 g 4 species in reaction -4.000 H+ 1.000 Am+++ -3.000 e- 2.000 H2O * log10 K(298 K) = 85.3501 a= 85.3501247 b= 0 c= 0 d= 28080.8 e= 0 f= 0 CH4 charge= 0 ion size= 0.0 A mole wt.= 16.0426 g 4 species in reaction 10.000 H+ 8.000 e- 1.000 CO3-- -3.000 H2O * log10 K(298 K) = -37.9299 a= -37.92989372 b= 0 c= 0 d= -14111.7 e= 0 f= 0 Cr++ charge= 2 ion size= 0.0 A mole wt.= 51.9961 g 4 species in reaction 8.000 H+ 4.000 e- 1.000 CrO4-- -4.000 H2O * log10 K(298 K) = -67.2201 a= -67.22012361 b= 0 c= 0 d= -22039.1 e= 0 f= 0 Cr+++ charge= 3 ion size= 0.0 A mole wt.= 51.9961 g 4 species in reaction 8.000 H+ 3.000 e- 1.000 CrO4-- -4.000 H2O * log10 K(298 K) = -73.6199 a= -73.61988236 b= 0 c= 0 d= -26368.5 e= 0 f= 0 Cu+ charge= 1 ion size= 0.0 A mole wt.= 63.5460 g 2 species in reaction 1.000 Cu++ 1.000 e- * log10 K(298 K) = -2.6400 a= -2.639999354 b= 0 c= 0 d= 353.621 e= 0 f= 0 Eu++ charge= 2 ion size= 0.0 A mole wt.= 151.9650 g 2 species in reaction 1.000 Eu+++ 1.000 e- * log10 K(298 K) = 5.9700 a= 5.969998221 b= 0 c= 0 d= 4059.75 e= 0 f= 0 Fe+++ charge= 3 ion size= 0.0 A mole wt.= 55.8470 g 2 species in reaction 1.000 Fe++ -1.000 e- * log10 K(298 K) = 13.0100 a= 13.01001452 b= 0 c= 0 d= 2141.58 e= 0 f= 0 H2 charge= 0 ion size= 0.0 A mole wt.= 2.0158 g 2 species in reaction 2.000 H+ 2.000 e- * log10 K(298 K) = 3.0800 a= 3.080002521 b= 0 c= 0 d= -219.381 e= 0 f= 0 H3(AsO3) charge= 0 ion size= 0.0 A mole wt.= 125.9423 g 4 species in reaction 5.000 H+ 2.000 e- 1.000 AsO4--- -1.000 H2O * log10 K(298 K) = -40.0200 a= -40.02003039 b= 0 c= 0 d= -7306.95 e= 0 f= 0 HS- charge= -1 ion size= 0.0 A mole wt.= 33.0739 g 4 species in reaction 9.000 H+ 8.000 e- 1.000 SO4-- -4.000 H2O * log10 K(298 K) = -33.6900 a= -33.68995685 b= 0 c= 0 d= -13073 e= 0 f= 0 HSe- charge= -1 ion size= 0.0 A mole wt.= 79.9679 g 4 species in reaction 9.000 H+ 8.000 e- 1.000 SeO4-- -4.000 H2O * log10 K(298 K) = -81.5701 a= -81.57008033 b= 0 c= 0 d= -27449.8 e= 0 f= 0 IO3- charge= -1 ion size= 0.0 A mole wt.= 174.9015 g 4 species in reaction -6.000 H+ -6.000 e- 1.000 I- 3.000 H2O * log10 K(298 K) = 111.5601 a= 111.5600808 b= 0 c= 0 d= 36279.9 e= 0 f= 0 NH3 charge= 0 ion size= 0.0 A mole wt.= 17.0304 g 4 species in reaction 9.000 H+ 8.000 e- 1.000 NO3- -3.000 H2O * log10 K(298 K) = -109.8999 a= -109.8998782 b= 0 c= 0 d= -38225 e= 0 f= 0 NpO2+ charge= 1 ion size= 0.0 A mole wt.= 269.0460 g 2 species in reaction 1.000 NpO2++ 1.000 e- * log10 K(298 K) = -19.5900 a= -19.59000924 b= 0 c= 0 d= -6134.73 e= 0 f= 0 Np++++ charge= 4 ion size= 0.0 A mole wt.= 237.0480 g 4 species in reaction 1.000 NpO2+ 4.000 H+ 1.000 e- -2.000 H2O * log10 K(298 K) = -10.3200 a= -10.32001372 b= 0 c= 0 d= -7808.97 e= 0 f= 0 Np+++ charge= 3 ion size= 0.0 A mole wt.= 237.0480 g 2 species in reaction 1.000 Np++++ 1.000 e- * log10 K(298 K) = -3.5900 a= -3.590001504 b= 0 c= 0 d= 1506.31 e= 0 f= 0 PaO2+ charge= 1 ion size= 0.0 A mole wt.= 263.0339 g 4 species in reaction -4.000 H+ -1.000 e- 1.000 Pa++++ 2.000 H2O * log10 K(298 K) = -4.2200 a= -4.22 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2+ charge= 1 ion size= 0.0 A mole wt.= 275.9980 g 2 species in reaction 1.000 PuO2++ 1.000 e- * log10 K(298 K) = -15.8200 a= -15.82001136 b= 0 c= 0 d= -4601.31 e= 0 f= 0 Pu++++ charge= 4 ion size= 0.0 A mole wt.= 244.0000 g 4 species in reaction 1.000 PuO2+ 4.000 H+ 1.000 e- -2.000 H2O * log10 K(298 K) = -17.4500 a= -17.45001311 b= 0 c= 0 d= -10521.3 e= 0 f= 0 Pu+++ charge= 3 ion size= 0.0 A mole wt.= 244.0000 g 2 species in reaction 1.000 Pu++++ 1.000 e- * log10 K(298 K) = -17.6900 a= -17.68999819 b= 0 c= 0 d= -2710.66 e= 0 f= 0 S2O3-- charge= -2 ion size= 0.0 A mole wt.= 112.1290 g 4 species in reaction 10.000 H+ 8.000 e- 2.000 SO4-- -5.000 H2O * log10 K(298 K) = -38.5701 a= -38.57005936 b= 0 c= 0 d= -13724.7 e= 0 f= 0 S2O4-- charge= -2 ion size= 0.0 A mole wt.= 128.1280 g 4 species in reaction 8.000 H+ 6.000 e- 2.000 SO4-- -4.000 H2O * log10 K(298 K) = -10.7000 a= -10.6999987 b= 0 c= 0 d= -4081.53 e= 0 f= 0 SO3-- charge= -2 ion size= 0.0 A mole wt.= 80.0630 g 4 species in reaction 2.000 H+ 2.000 e- 1.000 SO4-- -1.000 H2O * log10 K(298 K) = 3.6200 a= 3.620000017 b= 0 c= 0 d= -394.363 e= 0 f= 0 Sb(OH)5 charge= 0 ion size= 0.0 A mole wt.= 206.7945 g 4 species in reaction -2.000 H+ -2.000 e- 1.000 Sb(OH)3 2.000 H2O * log10 K(298 K) = 21.7400 a= 21.74 b= 0 c= 0 d= 0 e= 0 f= 0 SeO3-- charge= -2 ion size= 0.0 A mole wt.= 126.9570 g 4 species in reaction 2.000 H+ 2.000 e- 1.000 SeO4-- -1.000 H2O * log10 K(298 K) = -28.0400 a= -28.04001263 b= 0 c= 0 d= -9897.74 e= 0 f= 0 Sn++++ charge= 4 ion size= 0.0 A mole wt.= 118.7100 g 2 species in reaction 1.000 Sn++ -2.000 e- * log10 K(298 K) = 12.9800 a= 12.98004681 b= 0 c= 0 d= -1143.6 e= 0 f= 0 TcO4- charge= -1 ion size= 0.0 A mole wt.= 161.9960 g 4 species in reaction 1.000 TcO(OH)2 -4.000 H+ -3.000 e- 1.000 H2O * log10 K(298 K) = 29.4301 a= 29.43005122 b= 0 c= 0 d= 15967.2 e= 0 f= 0 TcO4-- charge= -2 ion size= 0.0 A mole wt.= 161.9960 g 2 species in reaction 1.000 e- 1.000 TcO4- * log10 K(298 K) = 10.8000 a= 10.8 b= 0 c= 0 d= 0 e= 0 f= 0 U++++ charge= 4 ion size= 0.0 A mole wt.= 238.0289 g 4 species in reaction 1.000 UO2++ 4.000 H+ 2.000 e- -2.000 H2O * log10 K(298 K) = -9.0400 a= -9.039952775 b= 0 c= 0 d= -7514.32 e= 0 f= 0 UO2+ charge= 1 ion size= 0.0 A mole wt.= 270.0269 g 2 species in reaction 1.000 UO2++ 1.000 e- * log10 K(298 K) = -1.4800 a= -1.47999965 b= 0 c= 0 d= -320.035 e= 0 f= 0 U+++ charge= 3 ion size= 0.0 A mole wt.= 238.0289 g 2 species in reaction 1.000 U++++ 1.000 e- * log10 K(298 K) = 9.3500 a= 9.350007347 b= 0 c= 0 d= 5333.05 e= 0 f= 0 -end- 1311 aqueous species (NpO2)2(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 572.1058 g 3 species in reaction 2.000 NpO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 6.2700 a= 6.270007126 b= 0 c= 0 d= 2350.25 e= 0 f= 0 (NpO2)2CO3(OH)3- charge= -1 ion size= 0.0 A mole wt.= 649.1207 g 4 species in reaction 2.000 NpO2++ -3.000 H+ 1.000 CO3-- 3.000 H2O * log10 K(298 K) = 2.8700 a= 2.87 b= 0 c= 0 d= 0 e= 0 f= 0 (NpO2)3(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1167.1860 g 2 species in reaction 3.000 NpO2++ 6.000 CO3-- * log10 K(298 K) = -49.8400 a= -49.84 b= 0 c= 0 d= 0 e= 0 f= 0 (NpO2)3(OH)5+ charge= 1 ion size= 0.0 A mole wt.= 892.1725 g 3 species in reaction 3.000 NpO2++ -5.000 H+ 5.000 H2O * log10 K(298 K) = 17.1200 a= 17.12000722 b= 0 c= 0 d= 5780.43 e= 0 f= 0 (PuO2)2(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 586.0098 g 3 species in reaction 2.000 PuO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 7.5000 a= 7.500015414 b= 0 c= 0 d= 2276.5 e= 0 f= 0 (PuO2)3(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1188.0420 g 2 species in reaction 3.000 PuO2++ 6.000 CO3-- * log10 K(298 K) = -46.0200 a= -46.02 b= 0 c= 0 d= 0 e= 0 f= 0 (TcO)(OH)3- charge= -1 ion size= 0.0 A mole wt.= 165.0197 g 3 species in reaction 1.000 TcO(OH)2 -1.000 H+ 1.000 H2O * log10 K(298 K) = 10.8000 a= 10.80001623 b= 0 c= 0 d= 2038.68 e= 0 f= 0 (Th(OH)(Edta))2-- formula= (Th(OH)(CH2COO)4N(CH2)2N))2-- charge= -2 ion size= 0.0 A mole wt.= 1074.5104 g 4 species in reaction 2.000 Th++++ -2.000 H+ 2.000 Edta---- 2.000 H2O * log10 K(298 K) = -43.7000 a= -43.7 b= 0 c= 0 d= 0 e= 0 f= 0 (U(OH)(Edta))2-- formula= (U(OH)((CH2COO)4N(CH2)2N))2-- charge= -2 ion size= 0.0 A mole wt.= 1086.4920 g 4 species in reaction 2.000 U++++ -2.000 H+ 2.000 Edta---- 2.000 H2O * log10 K(298 K) = -51.7000 a= -51.7 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)11(CO3)6(OH)12-- charge= -2 ion size= 0.0 A mole wt.= 3534.4267 g 4 species in reaction 11.000 UO2++ -12.000 H+ 6.000 CO3-- 12.000 H2O * log10 K(298 K) = -36.4300 a= -36.43 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(Cit)2-- formula= (UO2)2(COOCH2COHCOOCH2COO)2-- charge= -2 ion size= 0.0 A mole wt.= 918.2508 g 2 species in reaction 2.000 UO2++ 2.000 Cit--- * log10 K(298 K) = -21.3000 a= -21.3 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(CO3)(OH)3- charge= -1 ion size= 0.0 A mole wt.= 651.0825 g 4 species in reaction 2.000 UO2++ -3.000 H+ 1.000 CO3-- 3.000 H2O * log10 K(298 K) = 0.8600 a= 0.86 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(Edta) formula= (UO2)2((CH2COO)4N(CH2)2N) charge= 0 ion size= 0.0 A mole wt.= 828.2640 g 2 species in reaction 2.000 UO2++ 1.000 Edta---- * log10 K(298 K) = -20.6000 a= -20.6 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(NpO2)(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1169.1478 g 3 species in reaction 2.000 UO2++ 1.000 NpO2++ 6.000 CO3-- * log10 K(298 K) = -53.5900 a= -53.59 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)2(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 557.0607 g 3 species in reaction 2.000 UO2++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 2.7000 a= 2.699998953 b= 0 c= 0 d= 749.708 e= 0 f= 0 (UO2)2(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 574.0676 g 3 species in reaction 2.000 UO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 5.6200 a= 5.619997153 b= 0 c= 0 d= 1963.72 e= 0 f= 0 (UO2)3(CO3)(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 921.1094 g 4 species in reaction 3.000 UO2++ -3.000 H+ 1.000 CO3-- 3.000 H2O * log10 K(298 K) = -0.6600 a= -0.6599833138 b= 0 c= 0 d= 4237.76 e= 0 f= 0 (UO2)3(CO3)6------ charge= -6 ion size= 0.0 A mole wt.= 1170.1287 g 2 species in reaction 3.000 UO2++ 6.000 CO3-- * log10 K(298 K) = -53.9999 a= -53.99993798 b= 0 c= 0 d= -3275.04 e= 0 f= 0 (UO2)3(OH)4++ charge= 2 ion size= 0.0 A mole wt.= 878.1083 g 3 species in reaction 3.000 UO2++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 11.9000 a= 11.90000148 b= 0 c= 0 d= 4401.41 e= 0 f= 0 (UO2)3(OH)5+ charge= 1 ion size= 0.0 A mole wt.= 895.1152 g 3 species in reaction 3.000 UO2++ -5.000 H+ 5.000 H2O * log10 K(298 K) = 15.5500 a= 15.55001562 b= 0 c= 0 d= 5069.95 e= 0 f= 0 (UO2)3(OH)7- charge= -1 ion size= 0.0 A mole wt.= 929.1290 g 3 species in reaction 3.000 UO2++ -7.000 H+ 7.000 H2O * log10 K(298 K) = 32.2000 a= 32.19999608 b= 0 c= 0 d= 11857.8 e= 0 f= 0 (UO2)4(OH)7+ charge= 1 ion size= 0.0 A mole wt.= 1199.1559 g 3 species in reaction 4.000 UO2++ -7.000 H+ 7.000 H2O * log10 K(298 K) = 21.9000 a= 21.9 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(CO3)2--- charge= -3 ion size= 0.0 A mole wt.= 227.8842 g 2 species in reaction 1.000 Ag+ 2.000 CO3-- * log10 K(298 K) = -2.1600 a= -2.160010835 b= 0 c= 0 d= -1468.55 e= 0 f= 0 Ag(HS) charge= 0 ion size= 0.0 A mole wt.= 140.9421 g 2 species in reaction 1.000 Ag+ 1.000 HS- * log10 K(298 K) = -14.0500 a= -14.05000297 b= 0 c= 0 d= -4116.58 e= 0 f= 0 Ag(HS)2- charge= -1 ion size= 0.0 A mole wt.= 174.0160 g 2 species in reaction 1.000 Ag+ 2.000 HS- * log10 K(298 K) = -18.4500 a= -18.44999351 b= 0 c= 0 d= -5526.57 e= 0 f= 0 Ag(OH) charge= 0 ion size= 0.0 A mole wt.= 124.8751 g 3 species in reaction 1.000 Ag+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 12.0000 a= 12.0000038 b= 0 c= 0 d= 2465.32 e= 0 f= 0 Ag(OH)2- charge= -1 ion size= 0.0 A mole wt.= 141.8820 g 3 species in reaction 1.000 Ag+ -2.000 H+ 2.000 H2O * log10 K(298 K) = 24.0000 a= 23.99999169 b= 0 c= 0 d= 5831.09 e= 0 f= 0 Ag(S2O3)- charge= -1 ion size= 0.0 A mole wt.= 219.9972 g 2 species in reaction 1.000 Ag+ 1.000 S2O3-- * log10 K(298 K) = -9.2300 a= -9.230011023 b= 0 c= 0 d= -3081.47 e= 0 f= 0 Ag(S2O3)2--- charge= -3 ion size= 0.0 A mole wt.= 332.1262 g 2 species in reaction 1.000 Ag+ 2.000 S2O3-- * log10 K(298 K) = -13.6400 a= -13.64000877 b= 0 c= 0 d= -4540.04 e= 0 f= 0 Ag(SeCn)3-- formula= Ag(SeCN)3-- charge= -2 ion size= 0.0 A mole wt.= 422.8013 g 5 species in reaction 1.000 Ag+ -3.000 H+ -6.000 e- 3.000 Cn- 3.000 HSe- * log10 K(298 K) = -52.9300 a= -52.93 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(SeO3)- charge= -1 ion size= 0.0 A mole wt.= 234.8252 g 2 species in reaction 1.000 Ag+ 1.000 SeO3-- * log10 K(298 K) = -3.2000 a= -3.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(SO3)- charge= -1 ion size= 0.0 A mole wt.= 187.9312 g 2 species in reaction 1.000 Ag+ 1.000 SO3-- * log10 K(298 K) = -5.4300 a= -5.43 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(SO4)- charge= -1 ion size= 0.0 A mole wt.= 203.9302 g 2 species in reaction 1.000 Ag+ 1.000 SO4-- * log10 K(298 K) = -1.3800 a= -1.380001763 b= 0 c= 0 d= 242.625 e= 0 f= 0 AgBr charge= 0 ion size= 0.0 A mole wt.= 187.7722 g 2 species in reaction 1.000 Ag+ 1.000 Br- * log10 K(298 K) = -4.2400 a= -4.239999795 b= 0 c= 0 d= -1208.11 e= 0 f= 0 AgBr2- charge= -1 ion size= 0.0 A mole wt.= 267.6762 g 2 species in reaction 1.000 Ag+ 2.000 Br- * log10 K(298 K) = -7.2800 a= -7.279995264 b= 0 c= 0 d= -2365.97 e= 0 f= 0 AgBr3-- charge= -2 ion size= 0.0 A mole wt.= 347.5802 g 2 species in reaction 1.000 Ag+ 3.000 Br- * log10 K(298 K) = -8.7100 a= -8.710003773 b= 0 c= 0 d= -3486.12 e= 0 f= 0 AgCl charge= 0 ion size= 0.0 A mole wt.= 143.3209 g 2 species in reaction 1.000 Ag+ 1.000 Cl- * log10 K(298 K) = -3.2700 a= -3.270000355 b= 0 c= 0 d= -893.194 e= 0 f= 0 AgCl2- charge= -1 ion size= 0.0 A mole wt.= 178.7736 g 2 species in reaction 1.000 Ag+ 2.000 Cl- * log10 K(298 K) = -5.2700 a= -5.269987364 b= 0 c= 0 d= -1501.92 e= 0 f= 0 AgCl3-- charge= -2 ion size= 0.0 A mole wt.= 214.2263 g 2 species in reaction 1.000 Ag+ 3.000 Cl- * log10 K(298 K) = -5.2900 a= -5.290012038 b= 0 c= 0 d= -1523.5 e= 0 f= 0 AgCl4--- charge= -3 ion size= 0.0 A mole wt.= 249.6790 g 2 species in reaction 1.000 Ag+ 4.000 Cl- * log10 K(298 K) = -5.5100 a= -5.509987364 b= 0 c= 0 d= -1363.24 e= 0 f= 0 AgCO3- charge= -1 ion size= 0.0 A mole wt.= 167.8762 g 2 species in reaction 1.000 Ag+ 1.000 CO3-- * log10 K(298 K) = -2.6900 a= -2.689999745 b= 0 c= 0 d= -1192.91 e= 0 f= 0 AgI charge= 0 ion size= 0.0 A mole wt.= 234.7727 g 2 species in reaction 1.000 Ag+ 1.000 I- * log10 K(298 K) = -6.5800 a= -6.58001037 b= 0 c= 0 d= -1930.66 e= 0 f= 0 AgI2- charge= -1 ion size= 0.0 A mole wt.= 361.6772 g 2 species in reaction 1.000 Ag+ 2.000 I- * log10 K(298 K) = -11.7000 a= -11.6999945 b= 0 c= 0 d= -3999.94 e= 0 f= 0 AgI3-- charge= -2 ion size= 0.0 A mole wt.= 488.5817 g 2 species in reaction 1.000 Ag+ 3.000 I- * log10 K(298 K) = -13.2800 a= -13.28000763 b= 0 c= 0 d= -6002.37 e= 0 f= 0 AgNO3 charge= 0 ion size= 0.0 A mole wt.= 169.8719 g 2 species in reaction 1.000 Ag+ 1.000 NO3- * log10 K(298 K) = 0.2900 a= 0.2899998736 b= 0 c= 0 d= -38.6528 e= 0 f= 0 Al(Cit) formula= AlCOOCH2COHCOOCH2COO charge= 0 ion size= 0.0 A mole wt.= 216.0800 g 2 species in reaction 1.000 Al+++ 1.000 Cit--- * log10 K(298 K) = -9.9000 a= -9.9 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Cit)2(OH)---- formula= Al(COOCH2COHCOOCH2COO)2(OH)---- charge= -4 ion size= 0.0 A mole wt.= 422.1854 g 4 species in reaction 1.000 Al+++ -1.000 H+ 2.000 Cit--- 1.000 H2O * log10 K(298 K) = -10.1900 a= -10.19 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Cit)2--- formula= Al(COOCH2COHCOOCH2COO)2--- charge= -3 ion size= 0.0 A mole wt.= 405.1785 g 2 species in reaction 1.000 Al+++ 2.000 Cit--- * log10 K(298 K) = -14.1300 a= -14.13 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Edta)- formula= Al((CH2COO)4N(CH2)2N)- charge= -1 ion size= 0.0 A mole wt.= 315.1917 g 2 species in reaction 1.000 Al+++ 1.000 Edta---- * log10 K(298 K) = -19.0800 a= -19.08 b= 0 c= 0 d= 0 e= 0 f= 0 Al(HCit)+ formula= Al(HCOOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 217.0879 g 3 species in reaction 1.000 Al+++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -12.9000 a= -12.9 b= 0 c= 0 d= 0 e= 0 f= 0 Al(HEdta) formula= AlH((CH2COO)4N(CH2)2N) charge= 0 ion size= 0.0 A mole wt.= 316.1996 g 3 species in reaction 1.000 Al+++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -21.8200 a= -21.82 b= 0 c= 0 d= 0 e= 0 f= 0 Al(HNta)+ formula= Al(HN(CH2COO)3)+ charge= 1 ion size= 0.0 A mole wt.= 216.1035 g 3 species in reaction 1.000 Al+++ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -15.1300 a= -15.13 b= 0 c= 0 d= 0 e= 0 f= 0 Al(HOx)++ formula= AlH(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 116.0074 g 3 species in reaction 1.000 Al+++ 1.000 H+ 1.000 Ox-- * log10 K(298 K) = -7.5000 a= -7.5 b= 0 c= 0 d= 0 e= 0 f= 0 Al(IO3)++ charge= 2 ion size= 0.0 A mole wt.= 201.8830 g 2 species in reaction 1.000 Al+++ 1.000 IO3- * log10 K(298 K) = -2.4600 a= -2.46 b= 0 c= 0 d= 0 e= 0 f= 0 Al(IO3)2+ charge= 1 ion size= 0.0 A mole wt.= 376.7845 g 2 species in reaction 1.000 Al+++ 2.000 IO3- * log10 K(298 K) = -4.3000 a= -4.3 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Nta) formula= AlN(CH2COO)3 charge= 0 ion size= 0.0 A mole wt.= 215.0956 g 2 species in reaction 1.000 Al+++ 1.000 Nta--- * log10 K(298 K) = -13.2300 a= -13.23 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Nta)(OH)2-- formula= Al(N(CH2COO)3)(OH)2-- charge= -2 ion size= 0.0 A mole wt.= 249.1094 g 4 species in reaction 1.000 Al+++ -2.000 H+ 1.000 Nta--- 2.000 H2O * log10 K(298 K) = 0.3000 a= 0.3 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Nta)2--- formula= Al(N(CH2COO)3)2--- charge= -3 ion size= 0.0 A mole wt.= 403.2097 g 2 species in reaction 1.000 Al+++ 2.000 Nta--- * log10 K(298 K) = -20.8000 a= -20.8 b= 0 c= 0 d= 0 e= 0 f= 0 Al(OH)(Cit)- formula= Al(OH)COOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 233.0869 g 4 species in reaction 1.000 Al+++ -1.000 H+ 1.000 Cit--- 1.000 H2O * log10 K(298 K) = -8.1000 a= -8.1 b= 0 c= 0 d= 0 e= 0 f= 0 Al(OH)(Edta)-- formula= Al(OH)(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 332.1986 g 4 species in reaction 1.000 Al+++ -1.000 H+ 1.000 Edta---- 1.000 H2O * log10 K(298 K) = -13.0000 a= -13 b= 0 c= 0 d= 0 e= 0 f= 0 Al(OH)(Nta)- formula= Al(OH)N(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 232.1025 g 4 species in reaction 1.000 Al+++ -1.000 H+ 1.000 Nta--- 1.000 H2O * log10 K(298 K) = -6.7900 a= -6.79 b= 0 c= 0 d= 0 e= 0 f= 0 Al(OH)++ charge= 2 ion size= 0.0 A mole wt.= 43.9884 g 3 species in reaction 1.000 Al+++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 4.9500 a= 4.950000575 b= 0 c= 0 d= 2599.09 e= 0 f= 0 Al(OH)2(Edta)--- formula= Al(OH)2(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 349.2055 g 4 species in reaction 1.000 Al+++ -2.000 H+ 1.000 Edta---- 2.000 H2O * log10 K(298 K) = -2.3000 a= -2.3 b= 0 c= 0 d= 0 e= 0 f= 0 Al(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 60.9953 g 3 species in reaction 1.000 Al+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 10.5800 a= 10.58000307 b= 0 c= 0 d= 5132.68 e= 0 f= 0 Al(OH)2F charge= 0 ion size= 0.0 A mole wt.= 79.9937 g 4 species in reaction 1.000 Al+++ -2.000 H+ 1.000 F- 2.000 H2O * log10 K(298 K) = 4.2100 a= 4.210001962 b= 0 c= 0 d= 6196.78 e= 0 f= 0 Al(OH)2F2- charge= -1 ion size= 0.0 A mole wt.= 98.9921 g 4 species in reaction 1.000 Al+++ -2.000 H+ 2.000 F- 2.000 H2O * log10 K(298 K) = 1.9900 a= 1.990040231 b= 0 c= 0 d= 7043.12 e= 0 f= 0 Al(OH)3 charge= 0 ion size= 0.0 A mole wt.= 78.0022 g 3 species in reaction 1.000 Al+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 16.4200 a= 16.42001858 b= 0 c= 0 d= 7557.47 e= 0 f= 0 Al(OH)4- charge= -1 ion size= 0.0 A mole wt.= 95.0091 g 3 species in reaction 1.000 Al+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 22.8700 a= 22.87000852 b= 0 c= 0 d= 9448.06 e= 0 f= 0 Al(Ox)+ formula= Al(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 114.9995 g 2 species in reaction 1.000 Al+++ 1.000 Ox-- * log10 K(298 K) = -9.4000 a= -9.4 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Ox)2- formula= Al((COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 203.0175 g 2 species in reaction 1.000 Al+++ 2.000 Ox-- * log10 K(298 K) = -15.3900 a= -15.39 b= 0 c= 0 d= 0 e= 0 f= 0 Al(Ox)3--- formula= Al((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 291.0355 g 2 species in reaction 1.000 Al+++ 3.000 Ox-- * log10 K(298 K) = -18.3000 a= -18.3 b= 0 c= 0 d= 0 e= 0 f= 0 Al(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 123.0435 g 2 species in reaction 1.000 Al+++ 1.000 SO4-- * log10 K(298 K) = -3.1700 a= -3.169998172 b= 0 c= 0 d= 985.595 e= 0 f= 0 Al2(Ox)4(OH)2---- formula= Al2((COO)2)4(OH)2---- charge= -4 ion size= 0.0 A mole wt.= 440.0488 g 4 species in reaction 2.000 Al+++ -2.000 H+ 4.000 Ox-- 2.000 H2O * log10 K(298 K) = -22.0000 a= -22 b= 0 c= 0 d= 0 e= 0 f= 0 Al3(Cit)3(OH)4---- formula= Al3(COOCH2COHCOOCH2COO)3(OH)4---- charge= -4 ion size= 0.0 A mole wt.= 716.2676 g 4 species in reaction 3.000 Al+++ -4.000 H+ 3.000 Cit--- 4.000 H2O * log10 K(298 K) = -20.6000 a= -20.6 b= 0 c= 0 d= 0 e= 0 f= 0 Al3(Ox)3(OH)3 formula= Al3((COO)2)3(OH)3 charge= 0 ion size= 0.0 A mole wt.= 396.0192 g 4 species in reaction 3.000 Al+++ -3.000 H+ 3.000 Ox-- 3.000 H2O * log10 K(298 K) = -16.0000 a= -16 b= 0 c= 0 d= 0 e= 0 f= 0 Al4(Ox)4(OH)4 formula= Al4((COO)2)4(OH)4 charge= 0 ion size= 0.0 A mole wt.= 528.0256 g 4 species in reaction 4.000 Al+++ -4.000 H+ 4.000 Ox-- 4.000 H2O * log10 K(298 K) = -21.0000 a= -21 b= 0 c= 0 d= 0 e= 0 f= 0 AlF++ charge= 2 ion size= 0.0 A mole wt.= 45.9799 g 2 species in reaction 1.000 Al+++ 1.000 F- * log10 K(298 K) = -6.9800 a= -6.980001389 b= 0 c= 0 d= -18.0206 e= 0 f= 0 AlF2+ charge= 1 ion size= 0.0 A mole wt.= 64.9783 g 2 species in reaction 1.000 Al+++ 2.000 F- * log10 K(298 K) = -12.5000 a= -12.50004855 b= 0 c= 0 d= 3910.67 e= 0 f= 0 AlF3 charge= 0 ion size= 0.0 A mole wt.= 83.9767 g 2 species in reaction 1.000 Al+++ 3.000 F- * log10 K(298 K) = -16.5500 a= -16.5499815 b= 0 c= 0 d= 32.1759 e= 0 f= 0 AlF4- charge= -1 ion size= 0.0 A mole wt.= 102.9751 g 2 species in reaction 1.000 Al+++ 4.000 F- * log10 K(298 K) = -18.9300 a= -18.93004146 b= 0 c= 0 d= 43.0405 e= 0 f= 0 AlH3SiO4++ charge= 2 ion size= 0.0 A mole wt.= 122.0867 g 3 species in reaction 1.000 Al+++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 2.3800 a= 2.380033188 b= 0 c= 0 d= 4041.94 e= 0 f= 0 AlOHF2 charge= 0 ion size= 0.0 A mole wt.= 81.9852 g 4 species in reaction 1.000 Al+++ -1.000 H+ 2.000 F- 1.000 H2O * log10 K(298 K) = -0.2100 a= -0.2100336072 b= 0 c= 0 d= 7278.07 e= 0 f= 0 Am(Acetate)++ formula= Am(CH3COO)++ charge= 2 ion size= 0.0 A mole wt.= 302.0437 g 2 species in reaction 1.000 Am+++ 1.000 Acetate- * log10 K(298 K) = -2.9400 a= -2.94 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Acetate)2+ formula= Am(CH3COO)2+ charge= 1 ion size= 0.0 A mole wt.= 361.0874 g 2 species in reaction 1.000 Am+++ 2.000 Acetate- * log10 K(298 K) = -5.0700 a= -5.07 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Acetate)3 formula= Am(CH3COO)3 charge= 0 ion size= 0.0 A mole wt.= 420.1311 g 2 species in reaction 1.000 Am+++ 3.000 Acetate- * log10 K(298 K) = -6.5400 a= -6.54 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Cit) formula= AmCOOCH2COHCOOCH2COO charge= 0 ion size= 0.0 A mole wt.= 432.0985 g 2 species in reaction 1.000 Am+++ 1.000 Cit--- * log10 K(298 K) = -8.5500 a= -8.55 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Cit)2--- formula= Am(COOCH2COHCOOCH2COO)2--- charge= -3 ion size= 0.0 A mole wt.= 621.1970 g 2 species in reaction 1.000 Am+++ 2.000 Cit--- * log10 K(298 K) = -13.9000 a= -13.9 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)+ charge= 1 ion size= 0.0 A mole wt.= 303.0080 g 2 species in reaction 1.000 Am+++ 1.000 CO3-- * log10 K(298 K) = -7.9000 a= -7.900002532 b= 0 c= 0 d= 8261.05 e= 0 f= 0 Am(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 363.0160 g 2 species in reaction 1.000 Am+++ 2.000 CO3-- * log10 K(298 K) = -12.6000 a= -12.6 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 423.0240 g 2 species in reaction 1.000 Am+++ 3.000 CO3-- * log10 K(298 K) = -14.6000 a= -14.6 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 543.0400 g 3 species in reaction 1.000 Am+++ -1.000 e- 5.000 CO3-- * log10 K(298 K) = 5.1000 a= 5.1 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Edta)- formula= Am(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 531.2102 g 2 species in reaction 1.000 Am+++ 1.000 Edta---- * log10 K(298 K) = -19.6700 a= -19.6700384 b= 0 c= 0 d= -553.676 e= 0 f= 0 Am(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 339.9856 g 2 species in reaction 1.000 Am+++ 1.000 H2(PO4)- * log10 K(298 K) = -3.0000 a= -3 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HCit)+ formula= Am(HCOOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 433.1064 g 3 species in reaction 1.000 H+ 1.000 Am+++ 1.000 Cit--- * log10 K(298 K) = -12.8600 a= -12.86 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HCit)2- formula= Am(HCOOCH2COHCOOCH2COO)2- charge= -1 ion size= 0.0 A mole wt.= 623.2128 g 3 species in reaction 2.000 H+ 1.000 Am+++ 2.000 Cit--- * log10 K(298 K) = -23.5200 a= -23.52 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HCO3)++ charge= 2 ion size= 0.0 A mole wt.= 304.0159 g 3 species in reaction 1.000 H+ 1.000 Am+++ 1.000 CO3-- * log10 K(298 K) = -13.4300 a= -13.43 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HEdta) formula= AmH((CH2COO)4N(CH2)2N) charge= 0 ion size= 0.0 A mole wt.= 532.2181 g 3 species in reaction 1.000 H+ 1.000 Am+++ 1.000 Edta---- * log10 K(298 K) = -21.8400 a= -21.84 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 338.9777 g 3 species in reaction -1.000 H+ 1.000 Am+++ 1.000 H2(PO4)- * log10 K(298 K) = 1.7400 a= 1.74 b= 0 c= 0 d= 0 e= 0 f= 0 Am(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 434.9554 g 3 species in reaction -2.000 H+ 1.000 Am+++ 2.000 H2(PO4)- * log10 K(298 K) = 5.3100 a= 5.31 b= 0 c= 0 d= 0 e= 0 f= 0 Am(NO3)++ charge= 2 ion size= 0.0 A mole wt.= 305.0037 g 2 species in reaction 1.000 Am+++ 1.000 NO3- * log10 K(298 K) = -1.3300 a= -1.330004033 b= 0 c= 0 d= 94.0204 e= 0 f= 0 Am(Nta) formula= AmN(CH2COO)3 charge= 0 ion size= 0.0 A mole wt.= 431.1141 g 2 species in reaction 1.000 Am+++ 1.000 Nta--- * log10 K(298 K) = -13.0000 a= -13 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Nta)2--- formula= Am(N(CH2COO)3)2--- charge= -3 ion size= 0.0 A mole wt.= 619.2282 g 2 species in reaction 1.000 Am+++ 2.000 Nta--- * log10 K(298 K) = -22.0000 a= -22 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)++ charge= 2 ion size= 0.0 A mole wt.= 260.0069 g 3 species in reaction -1.000 H+ 1.000 Am+++ 1.000 H2O * log10 K(298 K) = 7.2000 a= 7.200011571 b= 0 c= 0 d= 4095.69 e= 0 f= 0 Am(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 277.0138 g 3 species in reaction -2.000 H+ 1.000 Am+++ 2.000 H2O * log10 K(298 K) = 15.1000 a= 15.10001754 b= 0 c= 0 d= 7506.17 e= 0 f= 0 Am(OH)3 charge= 0 ion size= 0.0 A mole wt.= 294.0207 g 3 species in reaction -3.000 H+ 1.000 Am+++ 3.000 H2O * log10 K(298 K) = 26.1998 a= 26.19984835 b= 0 c= 0 d= 12020.2 e= 0 f= 0 Am(OH)3(HGlu)- formula= Am(OH)3(HOCH2(CHOH)4COO)- charge= -1 ion size= 0.0 A mole wt.= 489.1666 g 4 species in reaction -3.000 H+ 1.000 Am+++ 1.000 HGlu- 3.000 H2O * log10 K(298 K) = 19.7000 a= 19.7 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)3(HIsa)- formula= Am(OH)3(C6H11O6)- charge= -1 ion size= 0.0 A mole wt.= 473.1676 g 4 species in reaction -3.000 H+ 1.000 Am+++ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = 21.5000 a= 21.5 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)4- charge= -1 ion size= 0.0 A mole wt.= 311.0276 g 3 species in reaction -4.000 H+ 1.000 Am+++ 4.000 H2O * log10 K(298 K) = 40.7000 a= 40.7 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Ox)+ formula= Am(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 331.0180 g 2 species in reaction 1.000 Am+++ 1.000 Ox-- * log10 K(298 K) = -6.5100 a= -6.51 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Ox)2- formula= Am((COO)2)2-- charge= -1 ion size= 0.0 A mole wt.= 419.0360 g 2 species in reaction 1.000 Am+++ 2.000 Ox-- * log10 K(298 K) = -10.7100 a= -10.71 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Ox)3--- formula= Am((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 507.0540 g 2 species in reaction 1.000 Am+++ 3.000 Ox-- * log10 K(298 K) = -13.0000 a= -13 b= 0 c= 0 d= 0 e= 0 f= 0 Am(Phthalat)+ formula= AmC6H4(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 407.1156 g 2 species in reaction 1.000 Am+++ 1.000 Phthalat-- * log10 K(298 K) = -4.9300 a= -4.93 b= 0 c= 0 d= 0 e= 0 f= 0 Am(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 432.9396 g 3 species in reaction -4.000 H+ 1.000 Am+++ 2.000 H2(PO4)- * log10 K(298 K) = 19.4300 a= 19.43 b= 0 c= 0 d= 0 e= 0 f= 0 Am(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 339.0620 g 2 species in reaction 1.000 Am+++ 1.000 SO4-- * log10 K(298 K) = -3.4500 a= -3.44999543 b= 0 c= 0 d= 809.255 e= 0 f= 0 Am(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 435.1240 g 2 species in reaction 1.000 Am+++ 2.000 SO4-- * log10 K(298 K) = -4.5700 a= -4.570008175 b= 0 c= 0 d= 1093.09 e= 0 f= 0 AmCl++ charge= 2 ion size= 0.0 A mole wt.= 278.4527 g 2 species in reaction 1.000 Am+++ 1.000 Cl- * log10 K(298 K) = -0.2400 a= -0.2399899279 b= 0 c= 0 d= 1311.38 e= 0 f= 0 AmCl2+ charge= 1 ion size= 0.0 A mole wt.= 313.9054 g 2 species in reaction 1.000 Am+++ 2.000 Cl- * log10 K(298 K) = 0.7400 a= 0.7399943653 b= 0 c= 0 d= 2119.01 e= 0 f= 0 AmF++ charge= 2 ion size= 0.0 A mole wt.= 261.9984 g 2 species in reaction 1.000 Am+++ 1.000 F- * log10 K(298 K) = -3.4000 a= -3.399988967 b= 0 c= 0 d= 1417.31 e= 0 f= 0 AmF2+ charge= 1 ion size= 0.0 A mole wt.= 280.9968 g 2 species in reaction 1.000 Am+++ 2.000 F- * log10 K(298 K) = -5.8000 a= -5.80000994 b= 0 c= 0 d= 1165.85 e= 0 f= 0 AmF3 charge= 0 ion size= 0.0 A mole wt.= 299.9952 g 2 species in reaction 1.000 Am+++ 3.000 F- * log10 K(298 K) = -10.8200 a= -10.82000613 b= 0 c= 0 d= -633.019 e= 0 f= 0 AmO2(CO3)- charge= -1 ion size= 0.0 A mole wt.= 335.0060 g 2 species in reaction 1.000 AmO2+ 1.000 CO3-- * log10 K(298 K) = -5.1000 a= -5.1 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2(CO3)2--- charge= -3 ion size= 0.0 A mole wt.= 395.0140 g 2 species in reaction 1.000 AmO2+ 2.000 CO3-- * log10 K(298 K) = -6.7000 a= -6.7 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 455.0220 g 2 species in reaction 1.000 AmO2+ 3.000 CO3-- * log10 K(298 K) = -5.1000 a= -5.1 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2(OH)2- charge= -1 ion size= 0.0 A mole wt.= 309.0118 g 3 species in reaction -2.000 H+ 1.000 AmO2+ 2.000 H2O * log10 K(298 K) = 23.6000 a= 23.6 b= 0 c= 0 d= 0 e= 0 f= 0 AmO2OH charge= 0 ion size= 0.0 A mole wt.= 292.0049 g 3 species in reaction -1.000 H+ 1.000 AmO2+ 1.000 H2O * log10 K(298 K) = 11.3000 a= 11.3 b= 0 c= 0 d= 0 e= 0 f= 0 AmOSi(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 338.1052 g 3 species in reaction -1.000 H+ 1.000 Am+++ 1.000 H4(SiO4) * log10 K(298 K) = 2.3100 a= 2.31 b= 0 c= 0 d= 0 e= 0 f= 0 AmPO4 charge= 0 ion size= 0.0 A mole wt.= 337.9698 g 3 species in reaction -2.000 H+ 1.000 Am+++ 1.000 H2(PO4)- * log10 K(298 K) = 7.7600 a= 7.76 b= 0 c= 0 d= 0 e= 0 f= 0 AsO3--- charge= -3 ion size= 0.0 A mole wt.= 122.9186 g 2 species in reaction -3.000 H+ 1.000 H3(AsO3) * log10 K(298 K) = 38.5900 a= 38.59 b= 0 c= 0 d= 0 e= 0 f= 0 B(OH)3 charge= 0 ion size= 0.0 A mole wt.= 61.8317 g 3 species in reaction 1.000 H+ 1.000 B(OH)4- -1.000 H2O * log10 K(298 K) = -9.2400 a= -9.239996537 b= 0 c= 0 d= -705.884 e= 0 f= 0 B3O5- charge= -1 ion size= 0.0 A mole wt.= 112.4280 g 3 species in reaction 2.000 H+ 3.000 B(OH)4- -7.000 H2O * log10 K(298 K) = -20.9000 a= -20.9 b= 0 c= 0 d= 0 e= 0 f= 0 B4O7-- charge= -2 ion size= 0.0 A mole wt.= 155.2370 g 3 species in reaction 2.000 H+ 4.000 B(OH)4- -9.000 H2O * log10 K(298 K) = -21.9000 a= -21.9 b= 0 c= 0 d= 0 e= 0 f= 0 Ba(CO3) charge= 0 ion size= 0.0 A mole wt.= 197.3350 g 2 species in reaction 1.000 Ba++ 1.000 CO3-- * log10 K(298 K) = -2.7100 a= -2.710003168 b= 0 c= 0 d= 775.198 e= 0 f= 0 Ba(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 198.3429 g 3 species in reaction 1.000 Ba++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.3100 a= -11.30995553 b= 0 c= 0 d= 447.119 e= 0 f= 0 Ba(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 199.3307 g 2 species in reaction 1.000 Ba++ 1.000 NO3- * log10 K(298 K) = 0.3100 a= 0.3100009277 b= 0 c= 0 d= 356.181 e= 0 f= 0 Ba(OH)+ charge= 1 ion size= 0.0 A mole wt.= 154.3339 g 3 species in reaction 1.000 Ba++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 13.4700 a= 13.47001627 b= 0 c= 0 d= 4565.06 e= 0 f= 0 Ba(SO4) charge= 0 ion size= 0.0 A mole wt.= 233.3890 g 2 species in reaction 1.000 Ba++ 1.000 SO4-- * log10 K(298 K) = -2.7000 a= -2.699997706 b= 0 c= 0 d= 384.805 e= 0 f= 0 BaB(OH)4+ charge= 1 ion size= 0.0 A mole wt.= 216.1656 g 2 species in reaction 1.000 Ba++ 1.000 B(OH)4- * log10 K(298 K) = -1.4900 a= -1.49 b= 0 c= 0 d= 0 e= 0 f= 0 BaF+ charge= 1 ion size= 0.0 A mole wt.= 156.3254 g 2 species in reaction 1.000 Ba++ 1.000 F- * log10 K(298 K) = -0.4000 a= -0.4000038102 b= 0 c= 0 d= 349.86 e= 0 f= 0 BF(OH)3- charge= -1 ion size= 0.0 A mole wt.= 80.8301 g 4 species in reaction 1.000 H+ 1.000 F- 1.000 B(OH)4- -1.000 H2O * log10 K(298 K) = -8.9400 a= -8.939991266 b= 0 c= 0 d= -2041.18 e= 0 f= 0 BF2(OH)2- charge= -1 ion size= 0.0 A mole wt.= 82.8216 g 4 species in reaction 2.000 H+ 2.000 F- 1.000 B(OH)4- -2.000 H2O * log10 K(298 K) = -16.9700 a= -16.96997838 b= 0 c= 0 d= -2021.54 e= 0 f= 0 BF3(OH)- charge= -1 ion size= 0.0 A mole wt.= 84.8131 g 4 species in reaction 3.000 H+ 3.000 F- 1.000 B(OH)4- -3.000 H2O * log10 K(298 K) = -23.0100 a= -23.0100055 b= 0 c= 0 d= -2001.9 e= 0 f= 0 BF4- charge= -1 ion size= 0.0 A mole wt.= 86.8046 g 4 species in reaction 4.000 H+ 4.000 F- 1.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -29.6200 a= -29.62003297 b= 0 c= 0 d= 3848.57 e= 0 f= 0 Ca(Acetate)+ formula= Ca(CH3COO)+ charge= 1 ion size= 0.0 A mole wt.= 99.1217 g 2 species in reaction 1.000 Ca++ 1.000 Acetate- * log10 K(298 K) = -1.1200 a= -1.11999751 b= 0 c= 0 d= 7.4694 e= 0 f= 0 Ca(Adipate) formula= Ca(CH2)4(COO)2 charge= 0 ion size= 0.0 A mole wt.= 184.2032 g 2 species in reaction 1.000 Ca++ 1.000 Adipate-- * log10 K(298 K) = -2.1900 a= -2.19 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Am(OH)3)++ charge= 2 ion size= 0.0 A mole wt.= 334.0987 g 4 species in reaction 1.000 Ca++ -3.000 H+ 1.000 Am+++ 3.000 H2O * log10 K(298 K) = 26.3000 a= 26.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(AsO4)- charge= -1 ion size= 0.0 A mole wt.= 178.9956 g 2 species in reaction 1.000 Ca++ 1.000 AsO4--- * log10 K(298 K) = -5.7700 a= -5.77 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Cit)- formula= CaCOOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 229.1765 g 2 species in reaction 1.000 Ca++ 1.000 Cit--- * log10 K(298 K) = -4.8000 a= -4.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Cm(OH)3)++ charge= 2 ion size= 0.0 A mole wt.= 338.0987 g 4 species in reaction 1.000 Ca++ -3.000 H+ 1.000 Cm+++ 3.000 H2O * log10 K(298 K) = 26.3000 a= 26.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Edta)-- formula= Ca(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 328.2882 g 2 species in reaction 1.000 Ca++ 1.000 Edta---- * log10 K(298 K) = -12.6900 a= -12.69001392 b= 0 c= 0 d= -1159.59 e= 0 f= 0 Ca(Eu(OH)3)++ charge= 2 ion size= 0.0 A mole wt.= 243.0637 g 4 species in reaction 1.000 Ca++ 1.000 Eu+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 26.3000 a= 26.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(H2AsO4)+ charge= 1 ion size= 0.0 A mole wt.= 181.0114 g 3 species in reaction 1.000 Ca++ 2.000 H+ 1.000 AsO4--- * log10 K(298 K) = -19.8700 a= -19.87 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(H2Cit)+ formula= Ca(H2COOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 231.1923 g 3 species in reaction 1.000 Ca++ 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -12.6700 a= -12.67 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 137.0636 g 2 species in reaction 1.000 Ca++ 1.000 H2(PO4)- * log10 K(298 K) = -1.4100 a= -1.409994238 b= 0 c= 0 d= 743.075 e= 0 f= 0 Ca(H3SiO4)+ charge= 1 ion size= 0.0 A mole wt.= 135.1832 g 3 species in reaction 1.000 Ca++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 8.8300 a= 8.829981355 b= 0 c= 0 d= 1652.3 e= 0 f= 0 Ca(HAsO4) charge= 0 ion size= 0.0 A mole wt.= 180.0035 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 AsO4--- * log10 K(298 K) = -13.9000 a= -13.9 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HCit) formula= Ca(HCOOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 230.1844 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -9.2800 a= -9.28 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 101.0939 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.4300 a= -11.42999755 b= 0 c= 0 d= -1232.45 e= 0 f= 0 Ca(HEdta)- formula= CaH((CH2COO)4N(CH2)2N)- charge= -1 ion size= 0.0 A mole wt.= 329.2961 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -16.2300 a= -16.23 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HGlu)+ formula= Ca(HOCH2(CHOH)4COO)+ charge= 1 ion size= 0.0 A mole wt.= 235.2239 g 2 species in reaction 1.000 Ca++ 1.000 HGlu- * log10 K(298 K) = -1.7300 a= -1.73 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HIsa)+ formula= Ca(C6H11O6)+ charge= 1 ion size= 0.0 A mole wt.= 219.2249 g 2 species in reaction 1.000 Ca++ 1.000 HIsa- * log10 K(298 K) = -1.7000 a= -1.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HMalonate)+ formula= CaH(CH2(COO)2)+ charge= 1 ion size= 0.0 A mole wt.= 143.1307 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Malonate-- * log10 K(298 K) = -6.6400 a= -6.64 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HNta) formula= Ca(HN(CH2COO)3) charge= 0 ion size= 0.0 A mole wt.= 229.2000 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -13.4000 a= -13.4 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HNta)2-- formula= Ca(HN(CH2COO)3)2-- charge= -2 ion size= 0.0 A mole wt.= 418.3220 g 3 species in reaction 1.000 Ca++ 2.000 H+ 2.000 Nta--- * log10 K(298 K) = -23.6300 a= -23.63 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Ho(OH)3)++ charge= 2 ion size= 0.0 A mole wt.= 256.0290 g 4 species in reaction 1.000 Ca++ -3.000 H+ 1.000 Ho+++ 3.000 H2O * log10 K(298 K) = 26.3000 a= 26.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HPhthalat)+ formula= Ca(HC6H4(COO)2)+ charge= 1 ion size= 0.0 A mole wt.= 205.2015 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Phthalat-- * log10 K(298 K) = -6.4200 a= -6.42 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HPO4) charge= 0 ion size= 0.0 A mole wt.= 136.0557 g 3 species in reaction 1.000 Ca++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.4700 a= 4.470002363 b= 0 c= 0 d= 909.23 e= 0 f= 0 Ca(HPyrophos)- formula= CaHP2O7- charge= -1 ion size= 0.0 A mole wt.= 215.0265 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -13.8000 a= -13.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HSuccinat)+ formula= Ca(H(CH2)2(COO)2)+ charge= 1 ion size= 0.0 A mole wt.= 157.1575 g 3 species in reaction 1.000 Ca++ 1.000 H+ 1.000 Succinat-- * log10 K(298 K) = -6.7900 a= -6.79 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(IO3)+ charge= 1 ion size= 0.0 A mole wt.= 214.9795 g 2 species in reaction 1.000 Ca++ 1.000 IO3- * log10 K(298 K) = -0.4000 a= -0.4 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Isa) formula= Ca(C6H10O6) charge= 0 ion size= 0.0 A mole wt.= 218.2170 g 3 species in reaction 1.000 Ca++ -1.000 H+ 1.000 HIsa- * log10 K(298 K) = 10.4000 a= 10.4 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Malonate) formula= CaCH2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 142.1228 g 2 species in reaction 1.000 Ca++ 1.000 Malonate-- * log10 K(298 K) = -2.4300 a= -2.43 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 57.1084 g 2 species in reaction 1.000 Ca++ 1.000 NH3 * log10 K(298 K) = 0.1000 a= 0.1 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(NH3)2++ charge= 2 ion size= 0.0 A mole wt.= 74.1388 g 2 species in reaction 1.000 Ca++ 2.000 NH3 * log10 K(298 K) = 0.7000 a= 0.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(NH3)3++ charge= 2 ion size= 0.0 A mole wt.= 91.1692 g 2 species in reaction 1.000 Ca++ 3.000 NH3 * log10 K(298 K) = 1.5000 a= 1.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(NH3)4++ charge= 2 ion size= 0.0 A mole wt.= 108.1996 g 2 species in reaction 1.000 Ca++ 4.000 NH3 * log10 K(298 K) = 2.6000 a= 2.6 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Nta)- formula= CaN(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 228.1921 g 2 species in reaction 1.000 Ca++ 1.000 Nta--- * log10 K(298 K) = -7.7300 a= -7.73 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(OH)(HGlu) formula= Ca(OH)HOCH2(CHOH)4COO charge= 0 ion size= 0.0 A mole wt.= 252.2308 g 4 species in reaction 1.000 Ca++ -1.000 H+ 1.000 HGlu- 1.000 H2O * log10 K(298 K) = 10.4000 a= 10.4 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(OH)+ charge= 1 ion size= 0.0 A mole wt.= 57.0849 g 3 species in reaction 1.000 Ca++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 12.7800 a= 12.78001148 b= 0 c= 0 d= 4032.8 e= 0 f= 0 Ca(Ox) formula= Ca(COO)2 charge= 0 ion size= 0.0 A mole wt.= 128.0960 g 2 species in reaction 1.000 Ca++ 1.000 Ox-- * log10 K(298 K) = -3.1900 a= -3.189995051 b= 0 c= 0 d= 355.763 e= 0 f= 0 Ca(Ox)2-- formula= Ca((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 216.1140 g 2 species in reaction 1.000 Ca++ 2.000 Ox-- * log10 K(298 K) = -4.0200 a= -4.02 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Phthalat) formula= CaC6H4(COO)2 charge= 0 ion size= 0.0 A mole wt.= 204.1936 g 2 species in reaction 1.000 Ca++ 1.000 Phthalat-- * log10 K(298 K) = -2.4900 a= -2.49 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(PO4)- charge= -1 ion size= 0.0 A mole wt.= 135.0478 g 3 species in reaction 1.000 Ca++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 13.1000 a= 13.10000124 b= 0 c= 0 d= 1628.12 e= 0 f= 0 Ca(Pyrophos)-- formula= CaP2O7-- charge= -2 ion size= 0.0 A mole wt.= 214.0186 g 2 species in reaction 1.000 Ca++ 1.000 Pyrophos---- * log10 K(298 K) = -7.5000 a= -7.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(S2O3) charge= 0 ion size= 0.0 A mole wt.= 152.2070 g 2 species in reaction 1.000 Ca++ 1.000 S2O3-- * log10 K(298 K) = -1.3500 a= -1.350003126 b= 0 c= 0 d= 197.756 e= 0 f= 0 Ca(SeO4) charge= 0 ion size= 0.0 A mole wt.= 183.0340 g 2 species in reaction 1.000 Ca++ 1.000 SeO4-- * log10 K(298 K) = -2.0000 a= -2.000001481 b= 0 c= 0 d= 77.0445 e= 0 f= 0 Ca(Sm(OH)3)++ charge= 2 ion size= 0.0 A mole wt.= 241.4587 g 4 species in reaction 1.000 Ca++ 1.000 Sm+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 26.3000 a= 26.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(SO4) charge= 0 ion size= 0.0 A mole wt.= 136.1400 g 2 species in reaction 1.000 Ca++ 1.000 SO4-- * log10 K(298 K) = -2.3100 a= -2.310006472 b= 0 c= 0 d= 224.186 e= 0 f= 0 Ca(Succinat) formula= Ca(CH2)2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 156.1496 g 2 species in reaction 1.000 Ca++ 1.000 Succinat-- * log10 K(298 K) = -2.3400 a= -2.34 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2(Am(OH)4)+++ charge= 3 ion size= 0.0 A mole wt.= 391.1836 g 4 species in reaction 2.000 Ca++ -4.000 H+ 1.000 Am+++ 4.000 H2O * log10 K(298 K) = 37.2000 a= 37.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2(Cm(OH)4)+++ charge= 3 ion size= 0.0 A mole wt.= 395.1836 g 4 species in reaction 2.000 Ca++ -4.000 H+ 1.000 Cm+++ 4.000 H2O * log10 K(298 K) = 37.2000 a= 37.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2(Eu(OH)4)+++ charge= 3 ion size= 0.0 A mole wt.= 300.1486 g 4 species in reaction 2.000 Ca++ 1.000 Eu+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 37.2000 a= 37.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2(Ho(OH)4)+++ charge= 3 ion size= 0.0 A mole wt.= 313.1139 g 4 species in reaction 2.000 Ca++ -4.000 H+ 1.000 Ho+++ 4.000 H2O * log10 K(298 K) = 37.2000 a= 37.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2(Sm(OH)4)+++ charge= 3 ion size= 0.0 A mole wt.= 298.5436 g 4 species in reaction 2.000 Ca++ 1.000 Sm+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 37.2000 a= 37.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2UO2(CO3)3 charge= 0 ion size= 0.0 A mole wt.= 530.2069 g 3 species in reaction 2.000 Ca++ 1.000 UO2++ 3.000 CO3-- * log10 K(298 K) = -30.7000 a= -30.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Am(OH)6)+++ charge= 3 ion size= 0.0 A mole wt.= 465.2754 g 4 species in reaction 3.000 Ca++ -6.000 H+ 1.000 Am+++ 6.000 H2O * log10 K(298 K) = 60.7000 a= 60.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Cm(OH)6)+++ charge= 3 ion size= 0.0 A mole wt.= 469.2754 g 4 species in reaction 3.000 Ca++ -6.000 H+ 1.000 Cm+++ 6.000 H2O * log10 K(298 K) = 60.7000 a= 60.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Eu(OH)6)+++ charge= 3 ion size= 0.0 A mole wt.= 374.2404 g 4 species in reaction 3.000 Ca++ 1.000 Eu+++ -6.000 H+ 6.000 H2O * log10 K(298 K) = 60.7000 a= 60.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Ho(OH)6)+++ charge= 3 ion size= 0.0 A mole wt.= 387.2057 g 4 species in reaction 3.000 Ca++ -6.000 H+ 1.000 Ho+++ 6.000 H2O * log10 K(298 K) = 60.7000 a= 60.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Sm(OH)6)+++ charge= 3 ion size= 0.0 A mole wt.= 372.6354 g 4 species in reaction 3.000 Ca++ 1.000 Sm+++ -6.000 H+ 6.000 H2O * log10 K(298 K) = 60.7000 a= 60.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ca4Th(OH)8++++ charge= 4 ion size= 0.0 A mole wt.= 528.4053 g 4 species in reaction 4.000 Ca++ 1.000 Th++++ -8.000 H+ 8.000 H2O * log10 K(298 K) = 63.1000 a= 63.1 b= 0 c= 0 d= 0 e= 0 f= 0 CaB(OH)4+ charge= 1 ion size= 0.0 A mole wt.= 118.9166 g 2 species in reaction 1.000 Ca++ 1.000 B(OH)4- * log10 K(298 K) = -1.8000 a= -1.8 b= 0 c= 0 d= 0 e= 0 f= 0 CaCO3 charge= 0 ion size= 0.0 A mole wt.= 100.0860 g 2 species in reaction 1.000 Ca++ 1.000 CO3-- * log10 K(298 K) = -3.2200 a= -3.219998373 b= 0 c= 0 d= 774.624 e= 0 f= 0 CaCrO4 charge= 0 ion size= 0.0 A mole wt.= 156.0701 g 2 species in reaction 1.000 Ca++ 1.000 CrO4-- * log10 K(298 K) = -2.7700 a= -2.77 b= 0 c= 0 d= 0 e= 0 f= 0 CaF+ charge= 1 ion size= 0.0 A mole wt.= 59.0764 g 2 species in reaction 1.000 Ca++ 1.000 F- * log10 K(298 K) = -0.9400 a= -0.9399968942 b= 0 c= 0 d= 900.402 e= 0 f= 0 CaI+ charge= 1 ion size= 0.0 A mole wt.= 166.9825 g 2 species in reaction 1.000 Ca++ 1.000 I- * log10 K(298 K) = -0.1400 a= -0.14 b= 0 c= 0 d= 0 e= 0 f= 0 CaI2 charge= 0 ion size= 0.0 A mole wt.= 293.8870 g 2 species in reaction 1.000 Ca++ 2.000 I- * log10 K(298 K) = 0.0200 a= 0.02 b= 0 c= 0 d= 0 e= 0 f= 0 CaTh(OH)4(HGlu)+ formula= CaTh(OH)4HOCH2(CHOH)4COO+ charge= 1 ion size= 0.0 A mole wt.= 535.2896 g 5 species in reaction 1.000 Ca++ 1.000 Th++++ -4.000 H+ 1.000 HGlu- 4.000 H2O * log10 K(298 K) = 9.0000 a= 9 b= 0 c= 0 d= 0 e= 0 f= 0 CaTh(OH)4(HIsa)+ formula= CaTh(OH)4(C6H11O6)+ charge= 1 ion size= 0.0 A mole wt.= 519.2906 g 5 species in reaction 1.000 Ca++ 1.000 Th++++ -4.000 H+ 1.000 HIsa- 4.000 H2O * log10 K(298 K) = 9.0000 a= 9 b= 0 c= 0 d= 0 e= 0 f= 0 CaUO2(CO3)3-- charge= -2 ion size= 0.0 A mole wt.= 490.1289 g 3 species in reaction 1.000 Ca++ 1.000 UO2++ 3.000 CO3-- * log10 K(298 K) = -27.1800 a= -27.18 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(Cn)+ formula= Cd(CN)+ charge= 1 ion size= 0.0 A mole wt.= 138.4287 g 2 species in reaction 1.000 Cd++ 1.000 Cn- * log10 K(298 K) = -4.3500 a= -4.35 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(Cn)2 formula= Cd(CN)2 charge= 0 ion size= 0.0 A mole wt.= 164.4464 g 2 species in reaction 1.000 Cd++ 2.000 Cn- * log10 K(298 K) = -8.4300 a= -8.43 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(Cn)3- formula= Cd(CN)3- charge= -1 ion size= 0.0 A mole wt.= 190.4641 g 2 species in reaction 1.000 Cd++ 3.000 Cn- * log10 K(298 K) = -11.9500 a= -11.95 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(Cn)4-- formula= Cd(CN)4-- charge= -2 ion size= 0.0 A mole wt.= 216.4818 g 2 species in reaction 1.000 Cd++ 4.000 Cn- * log10 K(298 K) = -14.4400 a= -14.43999844 b= 0 c= 0 d= -4459.91 e= 0 f= 0 Cd(CO3) charge= 0 ion size= 0.0 A mole wt.= 172.4190 g 2 species in reaction 1.000 Cd++ 1.000 CO3-- * log10 K(298 K) = -4.7000 a= -4.699998902 b= 0 c= 0 d= 224.552 e= 0 f= 0 Cd(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 232.4270 g 2 species in reaction 1.000 Cd++ 2.000 CO3-- * log10 K(298 K) = -6.5000 a= -6.5 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 209.3966 g 2 species in reaction 1.000 Cd++ 1.000 H2(PO4)- * log10 K(298 K) = -1.8000 a= -1.8 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 173.4269 g 3 species in reaction 1.000 Cd++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.8300 a= -11.83 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(HS)2 charge= 0 ion size= 0.0 A mole wt.= 178.5588 g 2 species in reaction 1.000 Cd++ 2.000 HS- * log10 K(298 K) = -14.4300 a= -14.43 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 129.4414 g 2 species in reaction 1.000 Cd++ 1.000 NH3 * log10 K(298 K) = -2.5200 a= -2.52 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(NH3)2++ charge= 2 ion size= 0.0 A mole wt.= 146.4718 g 2 species in reaction 1.000 Cd++ 2.000 NH3 * log10 K(298 K) = -4.8700 a= -4.869994846 b= 0 c= 0 d= -1460.71 e= 0 f= 0 Cd(NH3)3++ charge= 2 ion size= 0.0 A mole wt.= 163.5022 g 2 species in reaction 1.000 Cd++ 3.000 NH3 * log10 K(298 K) = -5.9300 a= -5.93 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(NH3)4++ charge= 2 ion size= 0.0 A mole wt.= 180.5326 g 2 species in reaction 1.000 Cd++ 4.000 NH3 * log10 K(298 K) = -7.3000 a= -7.299998637 b= 0 c= 0 d= -2596.74 e= 0 f= 0 Cd(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 174.4147 g 2 species in reaction 1.000 Cd++ 1.000 NO3- * log10 K(298 K) = -0.4600 a= -0.4600119772 b= 0 c= 0 d= -1136.45 e= 0 f= 0 Cd(NO3)2 charge= 0 ion size= 0.0 A mole wt.= 236.4184 g 2 species in reaction 1.000 Cd++ 2.000 NO3- * log10 K(298 K) = -0.1700 a= -0.17 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(OH)+ charge= 1 ion size= 0.0 A mole wt.= 129.4179 g 3 species in reaction 1.000 Cd++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 10.0800 a= 10.07999473 b= 0 c= 0 d= 2862.92 e= 0 f= 0 Cd(OH)2 charge= 0 ion size= 0.0 A mole wt.= 146.4248 g 3 species in reaction 1.000 Cd++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 20.9000 a= 20.9000132 b= 0 c= 0 d= 6001.64 e= 0 f= 0 Cd(OH)3- charge= -1 ion size= 0.0 A mole wt.= 163.4317 g 3 species in reaction 1.000 Cd++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 33.3000 a= 33.29998091 b= 0 c= 0 d= 8170.16 e= 0 f= 0 Cd(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 180.4386 g 3 species in reaction 1.000 Cd++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 47.4801 a= 47.48013727 b= 0 c= 0 d= 11991.3 e= 0 f= 0 Cd(Pyrophos)-- formula= CdP2O7-- charge= -2 ion size= 0.0 A mole wt.= 286.3516 g 2 species in reaction 1.000 Cd++ 1.000 Pyrophos---- * log10 K(298 K) = -8.7000 a= -8.7 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(S2O3) charge= 0 ion size= 0.0 A mole wt.= 224.5400 g 2 species in reaction 1.000 Cd++ 1.000 S2O3-- * log10 K(298 K) = -2.4600 a= -2.459997372 b= 0 c= 0 d= 282.322 e= 0 f= 0 Cd(SeCn)+ formula= Cd(SeCN)+ charge= 1 ion size= 0.0 A mole wt.= 217.3887 g 5 species in reaction 1.000 Cd++ -1.000 H+ -2.000 e- 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -15.2700 a= -15.27 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)2 formula= Cd(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 322.3664 g 5 species in reaction 1.000 Cd++ -2.000 H+ -4.000 e- 2.000 Cn- 2.000 HSe- * log10 K(298 K) = -29.3900 a= -29.39 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)3- formula= Cd(SeCN)3- charge= -1 ion size= 0.0 A mole wt.= 427.3441 g 5 species in reaction 1.000 Cd++ -3.000 H+ -6.000 e- 3.000 Cn- 3.000 HSe- * log10 K(298 K) = -42.8900 a= -42.89 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeCn)4-- formula= Cd(SeCN)4-- charge= -2 ion size= 0.0 A mole wt.= 532.3218 g 5 species in reaction 1.000 Cd++ -4.000 H+ -8.000 e- 4.000 Cn- 4.000 HSe- * log10 K(298 K) = -56.7100 a= -56.71 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(SeO4) charge= 0 ion size= 0.0 A mole wt.= 255.3670 g 2 species in reaction 1.000 Cd++ 1.000 SeO4-- * log10 K(298 K) = -2.2700 a= -2.270003069 b= 0 c= 0 d= 433.539 e= 0 f= 0 Cd(SO4) charge= 0 ion size= 0.0 A mole wt.= 208.4730 g 2 species in reaction 1.000 Cd++ 1.000 SO4-- * log10 K(298 K) = -2.3700 a= -2.369997604 b= 0 c= 0 d= 454.432 e= 0 f= 0 Cd(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 304.5350 g 2 species in reaction 1.000 Cd++ 2.000 SO4-- * log10 K(298 K) = -3.4400 a= -3.44 b= 0 c= 0 d= 0 e= 0 f= 0 Cd4(OH)4++++ charge= 4 ion size= 0.0 A mole wt.= 517.6716 g 3 species in reaction 4.000 Cd++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 32.0700 a= 32.06998965 b= 0 c= 0 d= 8991.22 e= 0 f= 0 CdBr+ charge= 1 ion size= 0.0 A mole wt.= 192.3150 g 2 species in reaction 1.000 Cd++ 1.000 Br- * log10 K(298 K) = -2.1600 a= -2.16000019 b= 0 c= 0 d= -415.727 e= 0 f= 0 CdBr2 charge= 0 ion size= 0.0 A mole wt.= 272.2190 g 2 species in reaction 1.000 Cd++ 2.000 Br- * log10 K(298 K) = -2.9200 a= -2.920000316 b= 0 c= 0 d= -822.313 e= 0 f= 0 CdBr3- charge= -1 ion size= 0.0 A mole wt.= 352.1230 g 2 species in reaction 1.000 Cd++ 3.000 Br- * log10 K(298 K) = -3.1900 a= -3.190007183 b= 0 c= 0 d= -1506.73 e= 0 f= 0 CdCl+ charge= 1 ion size= 0.0 A mole wt.= 147.8637 g 2 species in reaction 1.000 Cd++ 1.000 Cl- * log10 K(298 K) = -1.9700 a= -1.970000205 b= 0 c= 0 d= -288.329 e= 0 f= 0 CdCl2 charge= 0 ion size= 0.0 A mole wt.= 183.3164 g 2 species in reaction 1.000 Cd++ 2.000 Cl- * log10 K(298 K) = -2.5900 a= -2.590001065 b= 0 c= 0 d= -734.822 e= 0 f= 0 CdCl3- charge= -1 ion size= 0.0 A mole wt.= 218.7691 g 2 species in reaction 1.000 Cd++ 3.000 Cl- * log10 K(298 K) = -2.4000 a= -2.399983971 b= 0 c= 0 d= -1347.83 e= 0 f= 0 CdCl4-- charge= -2 ion size= 0.0 A mole wt.= 254.2218 g 2 species in reaction 1.000 Cd++ 4.000 Cl- * log10 K(298 K) = -1.4700 a= -1.470015388 b= 0 c= 0 d= -2338.24 e= 0 f= 0 CdHPO4 charge= 0 ion size= 0.0 A mole wt.= 208.3887 g 3 species in reaction 1.000 Cd++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 2.3800 a= 2.38 b= 0 c= 0 d= 0 e= 0 f= 0 CdHS+ charge= 1 ion size= 0.0 A mole wt.= 145.4849 g 2 species in reaction 1.000 Cd++ 1.000 HS- * log10 K(298 K) = -7.3800 a= -7.38 b= 0 c= 0 d= 0 e= 0 f= 0 CdI+ charge= 1 ion size= 0.0 A mole wt.= 239.3155 g 2 species in reaction 1.000 Cd++ 1.000 I- * log10 K(298 K) = -2.0900 a= -2.089999528 b= 0 c= 0 d= -456.469 e= 0 f= 0 CdI2 charge= 0 ion size= 0.0 A mole wt.= 366.2200 g 2 species in reaction 1.000 Cd++ 2.000 I- * log10 K(298 K) = -3.5300 a= -3.530000394 b= 0 c= 0 d= -991.811 e= 0 f= 0 CdI3- charge= -1 ion size= 0.0 A mole wt.= 493.1245 g 2 species in reaction 1.000 Cd++ 3.000 I- * log10 K(298 K) = -4.6400 a= -4.639990057 b= 0 c= 0 d= -2018.72 e= 0 f= 0 CdI4-- charge= -2 ion size= 0.0 A mole wt.= 620.0290 g 2 species in reaction 1.000 Cd++ 4.000 I- * log10 K(298 K) = -5.4800 a= -5.480005427 b= 0 c= 0 d= -3949.38 e= 0 f= 0 Cl2 charge= 0 ion size= 0.0 A mole wt.= 70.9054 g 2 species in reaction -2.000 e- 2.000 Cl- * log10 K(298 K) = 47.2100 a= 47.20999017 b= 0 c= 0 d= 16232.1 e= 0 f= 0 ClO4- charge= -1 ion size= 0.0 A mole wt.= 99.4487 g 4 species in reaction -8.000 H+ -8.000 e- 1.000 Cl- 4.000 H2O * log10 K(298 K) = 187.7898 a= 187.7898327 b= 0 c= 0 d= 61755.7 e= 0 f= 0 Cm(Acetate)++ formula= Cm(CH3COO)++ charge= 2 ion size= 0.0 A mole wt.= 306.0437 g 2 species in reaction 1.000 Cm+++ 1.000 Acetate- * log10 K(298 K) = -3.0100 a= -3.01 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(Acetate)2+ formula= Cm(CH3COO)2+ charge= 1 ion size= 0.0 A mole wt.= 365.0874 g 2 species in reaction 1.000 Cm+++ 2.000 Acetate- * log10 K(298 K) = -4.9600 a= -4.96 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(Acetate)3 formula= Cm(CH3COO)3 charge= 0 ion size= 0.0 A mole wt.= 424.1311 g 2 species in reaction 1.000 Cm+++ 3.000 Acetate- * log10 K(298 K) = -6.3000 a= -6.3 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 367.0160 g 2 species in reaction 2.000 CO3-- 1.000 Cm+++ * log10 K(298 K) = -12.6000 a= -12.6 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 427.0240 g 2 species in reaction 3.000 CO3-- 1.000 Cm+++ * log10 K(298 K) = -14.6000 a= -14.6 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 343.9856 g 2 species in reaction 1.000 H2(PO4)- 1.000 Cm+++ * log10 K(298 K) = -2.4000 a= -2.4 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 342.9777 g 3 species in reaction -1.000 H+ 1.000 H2(PO4)- 1.000 Cm+++ * log10 K(298 K) = 1.7000 a= 1.7 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 438.9554 g 3 species in reaction -2.000 H+ 2.000 H2(PO4)- 1.000 Cm+++ * log10 K(298 K) = 5.2100 a= 5.21 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(OH)++ charge= 2 ion size= 0.0 A mole wt.= 264.0069 g 3 species in reaction -1.000 H+ 1.000 Cm+++ 1.000 H2O * log10 K(298 K) = 7.2000 a= 7.20001221 b= 0 c= 0 d= 4145.52 e= 0 f= 0 Cm(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 281.0138 g 3 species in reaction -2.000 H+ 1.000 Cm+++ 2.000 H2O * log10 K(298 K) = 15.1000 a= 15.09997022 b= 0 c= 0 d= 7571.57 e= 0 f= 0 Cm(OH)3 charge= 0 ion size= 0.0 A mole wt.= 298.0207 g 3 species in reaction -3.000 H+ 1.000 Cm+++ 3.000 H2O * log10 K(298 K) = 26.1999 a= 26.19992368 b= 0 c= 0 d= 12101.2 e= 0 f= 0 Cm(OH)4- charge= -1 ion size= 0.0 A mole wt.= 315.0276 g 3 species in reaction -4.000 H+ 1.000 Cm+++ 4.000 H2O * log10 K(298 K) = 40.7000 a= 40.7 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(Ox)+ formula= Cm(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 335.0180 g 2 species in reaction 1.000 Ox-- 1.000 Cm+++ * log10 K(298 K) = -6.4800 a= -6.48 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(Ox)2- formula= Cm((COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 423.0360 g 2 species in reaction 2.000 Ox-- 1.000 Cm+++ * log10 K(298 K) = -10.4000 a= -10.4 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(Ox)3--- formula= Cm((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 511.0540 g 2 species in reaction 3.000 Ox-- 1.000 Cm+++ * log10 K(298 K) = -12.8400 a= -12.84 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(Phthalat)+ formula= CmC6H4(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 411.1156 g 2 species in reaction 1.000 Cm+++ 1.000 Phthalat-- * log10 K(298 K) = -4.9300 a= -4.93 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 436.9396 g 3 species in reaction -4.000 H+ 2.000 H2(PO4)- 1.000 Cm+++ * log10 K(298 K) = 19.2300 a= 19.23 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 439.1240 g 2 species in reaction 2.000 SO4-- 1.000 Cm+++ * log10 K(298 K) = -4.5700 a= -4.569985516 b= 0 c= 0 d= 1090.64 e= 0 f= 0 CmCl++ charge= 2 ion size= 0.0 A mole wt.= 282.4527 g 2 species in reaction 1.000 Cl- 1.000 Cm+++ * log10 K(298 K) = -0.2400 a= -0.2400091548 b= 0 c= 0 d= 1175.88 e= 0 f= 0 CmCl2+ charge= 1 ion size= 0.0 A mole wt.= 317.9054 g 2 species in reaction 2.000 Cl- 1.000 Cm+++ * log10 K(298 K) = 0.7400 a= 0.7399825977 b= 0 c= 0 d= 2150.19 e= 0 f= 0 CmCO3+ charge= 1 ion size= 0.0 A mole wt.= 307.0080 g 2 species in reaction 1.000 CO3-- 1.000 Cm+++ * log10 K(298 K) = -7.9000 a= -7.900012896 b= 0 c= 0 d= 8042.98 e= 0 f= 0 CmF++ charge= 2 ion size= 0.0 A mole wt.= 265.9984 g 2 species in reaction 1.000 F- 1.000 Cm+++ * log10 K(298 K) = -3.4000 a= -3.399995573 b= 0 c= 0 d= 1337.86 e= 0 f= 0 CmF2+ charge= 1 ion size= 0.0 A mole wt.= 284.9968 g 2 species in reaction 2.000 F- 1.000 Cm+++ * log10 K(298 K) = -5.8000 a= -5.799983059 b= 0 c= 0 d= 1077.06 e= 0 f= 0 CmF3 charge= 0 ion size= 0.0 A mole wt.= 303.9952 g 2 species in reaction 3.000 F- 1.000 Cm+++ * log10 K(298 K) = -11.1800 a= -11.18000259 b= 0 c= 0 d= -808.837 e= 0 f= 0 CmHCO3++ charge= 2 ion size= 0.0 A mole wt.= 308.0159 g 3 species in reaction 1.000 H+ 1.000 CO3-- 1.000 Cm+++ * log10 K(298 K) = -13.4300 a= -13.43 b= 0 c= 0 d= 0 e= 0 f= 0 CmNO3++ charge= 2 ion size= 0.0 A mole wt.= 309.0037 g 2 species in reaction 1.000 NO3- 1.000 Cm+++ * log10 K(298 K) = -1.3300 a= -1.330004033 b= 0 c= 0 d= 94.0204 e= 0 f= 0 CmPO4 charge= 0 ion size= 0.0 A mole wt.= 341.9698 g 3 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 Cm+++ * log10 K(298 K) = 7.6600 a= 7.66 b= 0 c= 0 d= 0 e= 0 f= 0 CmSiO(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 342.1052 g 3 species in reaction -1.000 H+ 1.000 H4(SiO4) 1.000 Cm+++ * log10 K(298 K) = 2.3100 a= 2.31 b= 0 c= 0 d= 0 e= 0 f= 0 CmSO4+ charge= 1 ion size= 0.0 A mole wt.= 343.0620 g 2 species in reaction 1.000 SO4-- 1.000 Cm+++ * log10 K(298 K) = -3.4500 a= -3.450003292 b= 0 c= 0 d= 816.933 e= 0 f= 0 CO charge= 0 ion size= 0.0 A mole wt.= 28.0100 g 4 species in reaction 4.000 H+ 2.000 e- 1.000 CO3-- -2.000 H2O * log10 K(298 K) = -11.6000 a= -11.600004 b= 0 c= 0 d= -908.342 e= 0 f= 0 Co(HS)2 charge= 0 ion size= 0.0 A mole wt.= 125.0810 g 2 species in reaction 1.000 Co++ 2.000 HS- * log10 K(298 K) = -8.7700 a= -8.77 b= 0 c= 0 d= 0 e= 0 f= 0 Co(OH)+ charge= 1 ion size= 0.0 A mole wt.= 75.9401 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 9.2300 a= 9.230008496 b= 0 c= 0 d= 2400.76 e= 0 f= 0 Co(OH)2 charge= 0 ion size= 0.0 A mole wt.= 92.9470 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 18.6000 a= 18.59998974 b= 0 c= 0 d= 5521.45 e= 0 f= 0 Co(OH)3- charge= -1 ion size= 0.0 A mole wt.= 109.9539 g 3 species in reaction 1.000 Co++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 31.7000 a= 31.69998713 b= 0 c= 0 d= 8372.88 e= 0 f= 0 Co(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 126.9608 g 3 species in reaction 1.000 Co++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 46.4200 a= 46.41996692 b= 0 c= 0 d= 11203.2 e= 0 f= 0 Co(SeCn)+ formula= Co(SeCN)+ charge= 1 ion size= 0.0 A mole wt.= 163.9109 g 5 species in reaction 1.000 Co++ -1.000 H+ -2.000 e- 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -14.5300 a= -14.53 b= 0 c= 0 d= 0 e= 0 f= 0 Co(SeO4) charge= 0 ion size= 0.0 A mole wt.= 201.8892 g 2 species in reaction 1.000 Co++ 1.000 SeO4-- * log10 K(298 K) = -2.7000 a= -2.700000971 b= 0 c= 0 d= -188.929 e= 0 f= 0 CO2 charge= 0 ion size= 0.0 A mole wt.= 44.0090 g 3 species in reaction 2.000 H+ 1.000 CO3-- -1.000 H2O * log10 K(298 K) = -16.6800 a= -16.67997714 b= 0 c= 0 d= -1246.29 e= 0 f= 0 Co2(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 134.8733 g 3 species in reaction 2.000 Co++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 9.8300 a= 9.829989559 b= 0 c= 0 d= 1568.57 e= 0 f= 0 Co4(OH)4++++ charge= 4 ion size= 0.0 A mole wt.= 303.7604 g 3 species in reaction 4.000 Co++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 29.8800 a= 29.88000367 b= 0 c= 0 d= 7820.41 e= 0 f= 0 CoCl+ charge= 1 ion size= 0.0 A mole wt.= 94.3859 g 2 species in reaction 1.000 Co++ 1.000 Cl- * log10 K(298 K) = -0.5700 a= -0.5699994974 b= 0 c= 0 d= -113.869 e= 0 f= 0 CoCl2 charge= 0 ion size= 0.0 A mole wt.= 129.8386 g 2 species in reaction 1.000 Co++ 2.000 Cl- * log10 K(298 K) = -0.0200 a= -0.0199983027 b= 0 c= 0 d= 212.8 e= 0 f= 0 CoCl3- charge= -1 ion size= 0.0 A mole wt.= 165.2913 g 2 species in reaction 1.000 Co++ 3.000 Cl- * log10 K(298 K) = 1.7100 a= 1.709999393 b= 0 c= 0 d= 349.338 e= 0 f= 0 CoCl4-- charge= -2 ion size= 0.0 A mole wt.= 200.7440 g 2 species in reaction 1.000 Co++ 4.000 Cl- * log10 K(298 K) = 2.0900 a= 2.089993515 b= 0 c= 0 d= 1178.91 e= 0 f= 0 CoCO3 charge= 0 ion size= 0.0 A mole wt.= 118.9412 g 2 species in reaction 1.000 Co++ 1.000 CO3-- * log10 K(298 K) = -4.2300 a= -4.23 b= 0 c= 0 d= 0 e= 0 f= 0 CoF+ charge= 1 ion size= 0.0 A mole wt.= 77.9316 g 2 species in reaction 1.000 Co++ 1.000 F- * log10 K(298 K) = -1.5000 a= -1.499996369 b= 0 c= 0 d= -32.9594 e= 0 f= 0 CoHCO3+ charge= 1 ion size= 0.0 A mole wt.= 119.9491 g 3 species in reaction 1.000 Co++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -12.2200 a= -12.22 b= 0 c= 0 d= 0 e= 0 f= 0 CoHPO4 charge= 0 ion size= 0.0 A mole wt.= 154.9109 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.1500 a= 4.15 b= 0 c= 0 d= 0 e= 0 f= 0 CoHS+ charge= 1 ion size= 0.0 A mole wt.= 92.0071 g 2 species in reaction 1.000 Co++ 1.000 HS- * log10 K(298 K) = -5.6700 a= -5.67 b= 0 c= 0 d= 0 e= 0 f= 0 CoS2O3 charge= 0 ion size= 0.0 A mole wt.= 171.0622 g 2 species in reaction 1.000 Co++ 1.000 S2O3-- * log10 K(298 K) = -2.0500 a= -2.05 b= 0 c= 0 d= 0 e= 0 f= 0 CoSO4 charge= 0 ion size= 0.0 A mole wt.= 154.9952 g 2 species in reaction 1.000 Co++ 1.000 SO4-- * log10 K(298 K) = -2.3000 a= -2.299996562 b= 0 c= 0 d= 109.273 e= 0 f= 0 Cr(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 148.9817 g 2 species in reaction 1.000 H2(PO4)- 1.000 Cr+++ * log10 K(298 K) = -2.5600 a= -2.56 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 147.9738 g 3 species in reaction -1.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ * log10 K(298 K) = -2.2500 a= -2.25 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 189.0190 g 4 species in reaction -1.000 H+ 2.000 CO3-- 1.000 Cr+++ 1.000 H2O * log10 K(298 K) = -9.7300 a= -9.73 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)+ charge= 1 ion size= 0.0 A mole wt.= 69.0030 g 3 species in reaction -1.000 H+ 1.000 Cr++ 1.000 H2O * log10 K(298 K) = 5.3000 a= 5.300009394 b= 0 c= 0 d= 1584.09 e= 0 f= 0 Cr(OH)++ charge= 2 ion size= 0.0 A mole wt.= 69.0030 g 3 species in reaction -1.000 H+ 1.000 Cr+++ 1.000 H2O * log10 K(298 K) = 3.4200 a= 3.420012913 b= 0 c= 0 d= 1944.24 e= 0 f= 0 Cr(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 86.0099 g 3 species in reaction -2.000 H+ 1.000 Cr+++ 2.000 H2O * log10 K(298 K) = 8.9000 a= 8.899993245 b= 0 c= 0 d= 4868.06 e= 0 f= 0 Cr(OH)3 charge= 0 ion size= 0.0 A mole wt.= 103.0168 g 3 species in reaction -3.000 H+ 1.000 Cr+++ 3.000 H2O * log10 K(298 K) = 14.3400 a= 14.34001754 b= 0 c= 0 d= 7506.17 e= 0 f= 0 Cr(OH)3(H2PO4)- charge= -1 ion size= 0.0 A mole wt.= 200.0024 g 4 species in reaction -3.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ 3.000 H2O * log10 K(298 K) = 11.5600 a= 11.56 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)3(H2PO4)2-- charge= -2 ion size= 0.0 A mole wt.= 296.9880 g 4 species in reaction -3.000 H+ 2.000 H2(PO4)- 1.000 Cr+++ 3.000 H2O * log10 K(298 K) = 10.8600 a= 10.86 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)3(HPO4)-- charge= -2 ion size= 0.0 A mole wt.= 198.9945 g 4 species in reaction -4.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ 3.000 H2O * log10 K(298 K) = 19.5800 a= 19.58 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)3(PO4)--- charge= -3 ion size= 0.0 A mole wt.= 197.9866 g 4 species in reaction -5.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ 3.000 H2O * log10 K(298 K) = 30.2400 a= 30.24 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)4(CO3)--- charge= -3 ion size= 0.0 A mole wt.= 180.0317 g 4 species in reaction -4.000 H+ 1.000 CO3-- 1.000 Cr+++ 4.000 H2O * log10 K(298 K) = 25.6900 a= 25.69 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)4(HPO4)(H2PO4)---- charge= -4 ion size= 0.0 A mole wt.= 312.9870 g 4 species in reaction -5.000 H+ 2.000 H2(PO4)- 1.000 Cr+++ 4.000 H2O * log10 K(298 K) = 28.7600 a= 28.7599916 b= 0 c= 0 d= 731.27 e= 0 f= 0 Cr(OH)4- charge= -1 ion size= 0.0 A mole wt.= 120.0237 g 3 species in reaction -4.000 H+ 1.000 Cr+++ 4.000 H2O * log10 K(298 K) = 25.8598 a= 25.85983361 b= 0 c= 0 d= 10113.1 e= 0 f= 0 Cr(OH)Cl2 charge= 0 ion size= 0.0 A mole wt.= 139.9084 g 4 species in reaction -1.000 H+ 2.000 Cl- 1.000 Cr+++ 1.000 H2O * log10 K(298 K) = 5.7300 a= 5.729992888 b= 0 c= 0 d= 1709.08 e= 0 f= 0 Cr(OH)CO3 charge= 0 ion size= 0.0 A mole wt.= 129.0110 g 4 species in reaction -1.000 H+ 1.000 CO3-- 1.000 Cr+++ 1.000 H2O * log10 K(298 K) = -4.0000 a= -4 b= 0 c= 0 d= 0 e= 0 f= 0 Cr2(OH)2++++ charge= 4 ion size= 0.0 A mole wt.= 138.0060 g 3 species in reaction -2.000 H+ 2.000 Cr+++ 2.000 H2O * log10 K(298 K) = 4.0000 a= 4 b= 0 c= 0 d= 0 e= 0 f= 0 Cr2O7-- charge= -2 ion size= 0.0 A mole wt.= 215.9852 g 3 species in reaction 2.000 H+ 2.000 CrO4-- -1.000 H2O * log10 K(298 K) = -14.7500 a= -14.75002014 b= 0 c= 0 d= -195.98 e= 0 f= 0 Cr3(OH)4+++++ charge= 5 ion size= 0.0 A mole wt.= 224.0159 g 3 species in reaction -4.000 H+ 3.000 Cr+++ 4.000 H2O * log10 K(298 K) = 7.6000 a= 7.6 b= 0 c= 0 d= 0 e= 0 f= 0 CrBr++ charge= 2 ion size= 0.0 A mole wt.= 131.9001 g 2 species in reaction 1.000 Br- 1.000 Cr+++ * log10 K(298 K) = 0.6200 a= 0.6199962905 b= 0 c= 0 d= 1179.85 e= 0 f= 0 CrCl+ charge= 1 ion size= 0.0 A mole wt.= 87.4488 g 2 species in reaction 1.000 Cl- 1.000 Cr++ * log10 K(298 K) = -5.6000 a= -5.600009821 b= 0 c= 0 d= -1055.12 e= 0 f= 0 CrCl++ charge= 2 ion size= 0.0 A mole wt.= 87.4488 g 2 species in reaction 1.000 Cl- 1.000 Cr+++ * log10 K(298 K) = -0.6200 a= -0.6199856213 b= 0 c= 0 d= 1092.73 e= 0 f= 0 CrCl2+ charge= 1 ion size= 0.0 A mole wt.= 122.9015 g 2 species in reaction 2.000 Cl- 1.000 Cr+++ * log10 K(298 K) = 0.7100 a= 0.7100143787 b= 0 c= 0 d= 1092.73 e= 0 f= 0 CrF++ charge= 2 ion size= 0.0 A mole wt.= 70.9945 g 2 species in reaction 1.000 F- 1.000 Cr+++ * log10 K(298 K) = -5.2100 a= -5.210001679 b= 0 c= 0 d= -131.106 e= 0 f= 0 CrF2+ charge= 1 ion size= 0.0 A mole wt.= 89.9929 g 2 species in reaction 2.000 F- 1.000 Cr+++ * log10 K(298 K) = -9.3100 a= -9.310000253 b= 0 c= 0 d= -21.8336 e= 0 f= 0 CrF3 charge= 0 ion size= 0.0 A mole wt.= 108.9913 g 2 species in reaction 3.000 F- 1.000 Cr+++ * log10 K(298 K) = -11.9100 a= -11.91 b= 0 c= 0 d= 0 e= 0 f= 0 CrO3Cl- charge= -1 ion size= 0.0 A mole wt.= 135.4458 g 4 species in reaction 2.000 H+ 1.000 Cl- 1.000 CrO4-- -1.000 H2O * log10 K(298 K) = -8.0800 a= -8.080002079 b= 0 c= 0 d= 284.673 e= 0 f= 0 CrSO4+ charge= 1 ion size= 0.0 A mole wt.= 148.0581 g 2 species in reaction 1.000 SO4-- 1.000 Cr+++ * log10 K(298 K) = -4.6100 a= -4.61 b= 0 c= 0 d= 0 e= 0 f= 0 Cs(Cit)-- formula= CsCOOCH2COHCOOCH2COO-- charge= -2 ion size= 0.0 A mole wt.= 322.0039 g 2 species in reaction 1.000 Cs+ 1.000 Cit--- * log10 K(298 K) = -0.9800 a= -0.98 b= 0 c= 0 d= 0 e= 0 f= 0 Cs(Edta)--- formula= Cs(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 421.1156 g 2 species in reaction 1.000 Cs+ 1.000 Edta---- * log10 K(298 K) = -1.3000 a= -1.3 b= 0 c= 0 d= 0 e= 0 f= 0 Cs(Nta)-- formula= CsN(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 321.0195 g 2 species in reaction 1.000 Cs+ 1.000 Nta--- * log10 K(298 K) = -0.8500 a= -0.85 b= 0 c= 0 d= 0 e= 0 f= 0 Cs(OH) charge= 0 ion size= 0.0 A mole wt.= 149.9123 g 3 species in reaction 1.000 Cs+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 15.6400 a= 15.64001145 b= 0 c= 0 d= 3433.63 e= 0 f= 0 CsBr charge= 0 ion size= 0.0 A mole wt.= 212.8094 g 2 species in reaction 1.000 Cs+ 1.000 Br- * log10 K(298 K) = -0.1000 a= -0.1000029549 b= 0 c= 0 d= 308.805 e= 0 f= 0 CsCl charge= 0 ion size= 0.0 A mole wt.= 168.3581 g 2 species in reaction 1.000 Cs+ 1.000 Cl- * log10 K(298 K) = 0.0900 a= 0.09000443233 b= 0 c= 0 d= 392.483 e= 0 f= 0 CsF charge= 0 ion size= 0.0 A mole wt.= 151.9038 g 2 species in reaction 1.000 Cs+ 1.000 F- * log10 K(298 K) = 0.3800 a= 0.3800001052 b= 0 c= 0 d= 127.241 e= 0 f= 0 CsI charge= 0 ion size= 0.0 A mole wt.= 259.8099 g 2 species in reaction 1.000 Cs+ 1.000 I- * log10 K(298 K) = -1.0500 a= -1.049998638 b= 0 c= 0 d= -3.70858 e= 0 f= 0 Cu(B(OH)4)+ charge= 1 ion size= 0.0 A mole wt.= 142.3846 g 2 species in reaction 1.000 Cu++ 1.000 B(OH)4- * log10 K(298 K) = -7.1300 a= -7.13 b= 0 c= 0 d= 0 e= 0 f= 0 Cu(B(OH)4)2 charge= 0 ion size= 0.0 A mole wt.= 221.2232 g 2 species in reaction 1.000 Cu++ 2.000 B(OH)4- * log10 K(298 K) = -12.4500 a= -12.45 b= 0 c= 0 d= 0 e= 0 f= 0 Cu(B(OH)4)3- charge= -1 ion size= 0.0 A mole wt.= 300.0618 g 2 species in reaction 1.000 Cu++ 3.000 B(OH)4- * log10 K(298 K) = -15.1700 a= -15.17 b= 0 c= 0 d= 0 e= 0 f= 0 Cu(SeO4) charge= 0 ion size= 0.0 A mole wt.= 206.5020 g 2 species in reaction 1.000 Cu++ 1.000 SeO4-- * log10 K(298 K) = -2.2000 a= -2.2 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Acetate)++ formula= Eu(CH3COO)++ charge= 2 ion size= 0.0 A mole wt.= 211.0087 g 2 species in reaction 1.000 Eu+++ 1.000 Acetate- * log10 K(298 K) = -2.9000 a= -2.9 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Acetate)2+ formula= Eu(CH3COO)2+ charge= 1 ion size= 0.0 A mole wt.= 270.0524 g 2 species in reaction 1.000 Eu+++ 2.000 Acetate- * log10 K(298 K) = -4.8000 a= -4.8 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Acetate)3 formula= Eu(CH3COO)3 charge= 0 ion size= 0.0 A mole wt.= 329.0961 g 2 species in reaction 1.000 Eu+++ 3.000 Acetate- * log10 K(298 K) = -5.6000 a= -5.6 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(CO3)+ charge= 1 ion size= 0.0 A mole wt.= 211.9730 g 2 species in reaction 1.000 Eu+++ 1.000 CO3-- * log10 K(298 K) = -7.9000 a= -7.899956851 b= 0 c= 0 d= 8751.58 e= 0 f= 0 Eu(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 271.9810 g 2 species in reaction 1.000 Eu+++ 2.000 CO3-- * log10 K(298 K) = -12.9000 a= -12.9 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 331.9890 g 2 species in reaction 1.000 Eu+++ 3.000 CO3-- * log10 K(298 K) = -14.8000 a= -14.8 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 248.9506 g 2 species in reaction 1.000 Eu+++ 1.000 H2(PO4)- * log10 K(298 K) = -2.4000 a= -2.4 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(HCO3)++ charge= 2 ion size= 0.0 A mole wt.= 212.9809 g 3 species in reaction 1.000 Eu+++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -12.4300 a= -12.43 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 247.9427 g 3 species in reaction 1.000 Eu+++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 1.5100 a= 1.51 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 343.9204 g 3 species in reaction 1.000 Eu+++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 4.8200 a= 4.82 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Malonate)+ formula= EuCH2(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 254.0098 g 2 species in reaction 1.000 Eu+++ 1.000 Malonate-- * log10 K(298 K) = -5.4300 a= -5.43 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Malonate)2- formula= Eu(CH2(COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 356.0546 g 2 species in reaction 1.000 Eu+++ 2.000 Malonate-- * log10 K(298 K) = -7.7800 a= -7.78 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(NO3)++ charge= 2 ion size= 0.0 A mole wt.= 213.9687 g 2 species in reaction 1.000 Eu+++ 1.000 NO3- * log10 K(298 K) = -1.2100 a= -1.21 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(OH)++ charge= 2 ion size= 0.0 A mole wt.= 168.9719 g 3 species in reaction 1.000 Eu+++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 7.8000 a= 7.799997984 b= 0 c= 0 d= 4169.49 e= 0 f= 0 Eu(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 185.9788 g 3 species in reaction 1.000 Eu+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 15.7000 a= 15.70000696 b= 0 c= 0 d= 7548.85 e= 0 f= 0 Eu(OH)3 charge= 0 ion size= 0.0 A mole wt.= 202.9857 g 3 species in reaction 1.000 Eu+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 26.2001 a= 26.20012395 b= 0 c= 0 d= 11849.8 e= 0 f= 0 Eu(OH)3(HIsa)- formula= Eu(OH)3(C6H11O6)- charge= -1 ion size= 0.0 A mole wt.= 382.1326 g 4 species in reaction 1.000 Eu+++ -3.000 H+ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = 20.9000 a= 20.9 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(OH)4- charge= -1 ion size= 0.0 A mole wt.= 219.9926 g 3 species in reaction 1.000 Eu+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 40.7001 a= 40.70013978 b= 0 c= 0 d= 15502.5 e= 0 f= 0 Eu(Ox)+ formula= Eu(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 239.9830 g 2 species in reaction 1.000 Eu+++ 1.000 Ox-- * log10 K(298 K) = -6.5500 a= -6.55 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Ox)2- formula= Eu((COO)2)- charge= -1 ion size= 0.0 A mole wt.= 328.0010 g 2 species in reaction 1.000 Eu+++ 2.000 Ox-- * log10 K(298 K) = -10.9300 a= -10.93 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Ox)3--- formula= Eu((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 416.0190 g 2 species in reaction 1.000 Eu+++ 3.000 Ox-- * log10 K(298 K) = -12.4800 a= -12.48 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Phthalat)+ formula= EuC6H4(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 316.0806 g 2 species in reaction 1.000 Eu+++ 1.000 Phthalat-- * log10 K(298 K) = -4.9600 a= -4.96 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Phthalat)2- formula= Eu(C6H4(COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 480.1962 g 2 species in reaction 1.000 Eu+++ 2.000 Phthalat-- * log10 K(298 K) = -7.3400 a= -7.34 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(PO4) charge= 0 ion size= 0.0 A mole wt.= 246.9348 g 3 species in reaction 1.000 Eu+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 7.3600 a= 7.36 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 341.9046 g 3 species in reaction 1.000 Eu+++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 18.4600 a= 18.46 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 248.0270 g 2 species in reaction 1.000 Eu+++ 1.000 SO4-- * log10 K(298 K) = -3.5000 a= -3.50000136 b= 0 c= 0 d= 813.642 e= 0 f= 0 Eu(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 344.0890 g 2 species in reaction 1.000 Eu+++ 2.000 SO4-- * log10 K(298 K) = -5.2000 a= -5.200000201 b= 0 c= 0 d= 1202.26 e= 0 f= 0 Eu(Succinat)+ formula= Eu(CH2)2(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 268.0366 g 2 species in reaction 1.000 Eu+++ 1.000 Succinat-- * log10 K(298 K) = -4.3600 a= -4.36 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(Succinat)2- formula= Eu((CH2)2(COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 384.1082 g 2 species in reaction 1.000 Eu+++ 2.000 Succinat-- * log10 K(298 K) = -6.5000 a= -6.5 b= 0 c= 0 d= 0 e= 0 f= 0 EuBr++ charge= 2 ion size= 0.0 A mole wt.= 231.8690 g 2 species in reaction 1.000 Eu+++ 1.000 Br- * log10 K(298 K) = -0.2500 a= -0.2499967835 b= 0 c= 0 d= 847.385 e= 0 f= 0 EuBr2+ charge= 1 ion size= 0.0 A mole wt.= 311.7730 g 2 species in reaction 1.000 Eu+++ 2.000 Br- * log10 K(298 K) = 0.0900 a= 0.08998706691 b= 0 c= 0 d= 1384.08 e= 0 f= 0 EuCl++ charge= 2 ion size= 0.0 A mole wt.= 187.4177 g 2 species in reaction 1.000 Eu+++ 1.000 Cl- * log10 K(298 K) = -0.7600 a= -0.7599989552 b= 0 c= 0 d= 1145.43 e= 0 f= 0 EuCl2+ charge= 1 ion size= 0.0 A mole wt.= 222.8704 g 2 species in reaction 1.000 Eu+++ 2.000 Cl- * log10 K(298 K) = 0.0500 a= 0.04999981218 b= 0 c= 0 d= 1845.62 e= 0 f= 0 EuF++ charge= 2 ion size= 0.0 A mole wt.= 170.9634 g 2 species in reaction 1.000 Eu+++ 1.000 F- * log10 K(298 K) = -4.3300 a= -4.330005417 b= 0 c= 0 d= 1303.54 e= 0 f= 0 EuF2+ charge= 1 ion size= 0.0 A mole wt.= 189.9618 g 2 species in reaction 1.000 Eu+++ 2.000 F- * log10 K(298 K) = -6.5501 a= -6.550057538 b= 0 c= 0 d= 1122.13 e= 0 f= 0 EuF3 charge= 0 ion size= 0.0 A mole wt.= 208.9602 g 2 species in reaction 1.000 Eu+++ 3.000 F- * log10 K(298 K) = -10.6000 a= -10.60000005 b= 0 c= 0 d= -435.785 e= 0 f= 0 EuSiO(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 247.0702 g 3 species in reaction 1.000 Eu+++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 2.6200 a= 2.62 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(B(OH)4)++ charge= 2 ion size= 0.0 A mole wt.= 134.6856 g 2 species in reaction 1.000 Fe+++ 1.000 B(OH)4- * log10 K(298 K) = -8.5800 a= -8.58 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(B(OH)4)2+ charge= 1 ion size= 0.0 A mole wt.= 213.5242 g 2 species in reaction 1.000 Fe+++ 2.000 B(OH)4- * log10 K(298 K) = -15.5400 a= -15.54 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cit) formula= FeCOOCH2COHCOOCH2COO charge= 0 ion size= 0.0 A mole wt.= 244.9455 g 2 species in reaction 1.000 Fe+++ 1.000 Cit--- * log10 K(298 K) = -12.6500 a= -12.65 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cit)(OH)- formula= Fe(COOCH2COHCOOCH2COO)(OH)- charge= -1 ion size= 0.0 A mole wt.= 261.9524 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 Cit--- 1.000 H2O * log10 K(298 K) = -10.3300 a= -10.33 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cit)- formula= FeCOOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 244.9455 g 2 species in reaction 1.000 Fe++ 1.000 Cit--- * log10 K(298 K) = -6.1000 a= -6.1 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cit)2(OH)2----- formula= Fe(COOCH2COHCOOCH2COO)2(OH)2----- charge= -5 ion size= 0.0 A mole wt.= 468.0578 g 4 species in reaction 1.000 Fe+++ -2.000 H+ 2.000 Cit--- 2.000 H2O * log10 K(298 K) = -3.4400 a= -3.44 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cit)2--- formula= Fe(COOCH2COHCOOCH2COO)2--- charge= -3 ion size= 0.0 A mole wt.= 434.0440 g 2 species in reaction 1.000 Fe+++ 2.000 Cit--- * log10 K(298 K) = -18.1500 a= -18.15 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cn)6--- formula= Fe(CN)6--- charge= -3 ion size= 0.0 A mole wt.= 211.9532 g 2 species in reaction 1.000 Fe+++ 6.000 Cn- * log10 K(298 K) = -43.6000 a= -43.6 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Cn)6---- formula= Fe(CN)6---- charge= -4 ion size= 0.0 A mole wt.= 211.9532 g 2 species in reaction 1.000 Fe++ 6.000 Cn- * log10 K(298 K) = -35.4000 a= -35.4 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(CO3) charge= 0 ion size= 0.0 A mole wt.= 115.8550 g 2 species in reaction 1.000 Fe++ 1.000 CO3-- * log10 K(298 K) = -5.6900 a= -5.689997144 b= 0 c= 0 d= -301.074 e= 0 f= 0 Fe(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 175.8630 g 2 species in reaction 1.000 Fe++ 2.000 CO3-- * log10 K(298 K) = -7.4500 a= -7.44998115 b= 0 c= 0 d= 2911.5 e= 0 f= 0 Fe(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 235.8710 g 2 species in reaction 1.000 Fe+++ 3.000 CO3-- * log10 K(298 K) = -24.2400 a= -24.24 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Edta)- formula= Fe(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 344.0572 g 2 species in reaction 1.000 Fe+++ 1.000 Edta---- * log10 K(298 K) = -27.7000 a= -27.7 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Edta)-- formula= Fe(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 344.0572 g 2 species in reaction 1.000 Fe++ 1.000 Edta---- * log10 K(298 K) = -16.0200 a= -16.02 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(H2Cit)+ formula= Fe(H2COOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 246.9613 g 3 species in reaction 1.000 Fe++ 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -24.7000 a= -24.7 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(H2Cit)++ formula= Fe(H2COOCH2COHCOOCH2COO)++ charge= 2 ion size= 0.0 A mole wt.= 246.9613 g 3 species in reaction 1.000 Fe+++ 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -30.4000 a= -30.4 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 152.8326 g 2 species in reaction 1.000 Fe++ 1.000 H2(PO4)- * log10 K(298 K) = -2.6900 a= -2.69 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 152.8326 g 2 species in reaction 1.000 Fe+++ 1.000 H2(PO4)- * log10 K(298 K) = -5.4200 a= -5.42 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(H3SiO4)++ charge= 2 ion size= 0.0 A mole wt.= 150.9522 g 3 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = -0.3600 a= -0.36 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HCit) formula= Fe(HCOOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 245.9534 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -10.0200 a= -10.02 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HCit)(Cit)-- formula= Fe(HCOOCH2COHCOOCH2COO)(COOCH2COHCOOCH2COO)-- charge= -2 ion size= 0.0 A mole wt.= 435.0519 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 2.000 Cit--- * log10 K(298 K) = -19.3000 a= -19.3 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HCit)+ formula= Fe(HCOOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 245.9534 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -13.5600 a= -13.56 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HCit)2- formula= Fe(HCOOCH2COHCOOCH2COO)2- charge= -1 ion size= 0.0 A mole wt.= 436.0598 g 3 species in reaction 1.000 Fe+++ 2.000 H+ 2.000 Cit--- * log10 K(298 K) = -24.9200 a= -24.92 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HEdta) formula= FeH((CH2COO)4N(CH2)2N) charge= 0 ion size= 0.0 A mole wt.= 345.0651 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -29.2000 a= -29.2 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HEdta)- formula= FeH((CH2COO)4N(CH2)2N)- charge= -1 ion size= 0.0 A mole wt.= 345.0651 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -18.3000 a= -18.3 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HNta) formula= Fe(HN(CH2COO)3) charge= 0 ion size= 0.0 A mole wt.= 244.9690 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -12.3000 a= -12.3 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HOx)++ formula= FeH(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 144.8729 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 Ox-- * log10 K(298 K) = -9.3000 a= -9.3 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HPO4) charge= 0 ion size= 0.0 A mole wt.= 151.8247 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 3.6100 a= 3.61 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 151.8247 g 3 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -1.6300 a= -1.63 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HS)+ charge= 1 ion size= 0.0 A mole wt.= 88.9209 g 2 species in reaction 1.000 Fe++ 1.000 HS- * log10 K(298 K) = -4.3400 a= -4.34 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HS)2 charge= 0 ion size= 0.0 A mole wt.= 121.9948 g 2 species in reaction 1.000 Fe++ 2.000 HS- * log10 K(298 K) = -6.4500 a= -6.45 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HSeO3)++ charge= 2 ion size= 0.0 A mole wt.= 183.8119 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 SeO3-- * log10 K(298 K) = -12.3500 a= -12.35 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(HSO4)+ charge= 1 ion size= 0.0 A mole wt.= 152.9169 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 SO4-- * log10 K(298 K) = -3.0700 a= -3.07 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 72.8774 g 2 species in reaction 1.000 Fe++ 1.000 NH3 * log10 K(298 K) = -1.3000 a= -1.3 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(NH3)2++ charge= 2 ion size= 0.0 A mole wt.= 89.9078 g 2 species in reaction 1.000 Fe++ 2.000 NH3 * log10 K(298 K) = -2.1000 a= -2.1 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(NH3)4++ charge= 2 ion size= 0.0 A mole wt.= 123.9686 g 2 species in reaction 1.000 Fe++ 4.000 NH3 * log10 K(298 K) = -3.6000 a= -3.6 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(NO3)++ charge= 2 ion size= 0.0 A mole wt.= 117.8507 g 2 species in reaction 1.000 Fe+++ 1.000 NO3- * log10 K(298 K) = -0.9500 a= -0.95 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Nta) formula= FeN(CH2COO)3 charge= 0 ion size= 0.0 A mole wt.= 243.9611 g 2 species in reaction 1.000 Fe+++ 1.000 Nta--- * log10 K(298 K) = -18.6000 a= -18.6 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Nta)- formula= FeN(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 243.9611 g 2 species in reaction 1.000 Fe++ 1.000 Nta--- * log10 K(298 K) = -10.6000 a= -10.6 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Nta)2--- formula= Fe(N(CH2COO)3)2--- charge= -3 ion size= 0.0 A mole wt.= 432.0752 g 2 species in reaction 1.000 Fe+++ 2.000 Nta--- * log10 K(298 K) = -27.0000 a= -27 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Nta)2---- formula= Fe(N(CH2COO)3)2---- charge= -4 ion size= 0.0 A mole wt.= 432.0752 g 2 species in reaction 1.000 Fe++ 2.000 Nta--- * log10 K(298 K) = -13.5000 a= -13.5 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)(Cit)-- formula= Fe(OH)COOCH2COHCOOCH2COO-- charge= -2 ion size= 0.0 A mole wt.= 261.9524 g 4 species in reaction 1.000 Fe++ -1.000 H+ 1.000 Cit--- 1.000 H2O * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)(Edta)-- formula= Fe(OH)(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 361.0641 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 Edta---- 1.000 H2O * log10 K(298 K) = -20.8400 a= -20.84 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)(Edta)--- formula= Fe(OH)(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 361.0641 g 4 species in reaction 1.000 Fe++ -1.000 H+ 1.000 Edta---- 1.000 H2O * log10 K(298 K) = -6.4000 a= -6.4 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)(Nta)- formula= Fe(OH)N(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 260.9680 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 Nta--- 1.000 H2O * log10 K(298 K) = -14.6000 a= -14.6 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)(Nta)-- formula= Fe(OH)N(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 260.9680 g 4 species in reaction 1.000 Fe++ -1.000 H+ 1.000 Nta--- 1.000 H2O * log10 K(298 K) = 0.1200 a= 0.12 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)+ charge= 1 ion size= 0.0 A mole wt.= 72.8539 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 9.5000 a= 9.499983355 b= 0 c= 0 d= 2888.72 e= 0 f= 0 Fe(OH)++ charge= 2 ion size= 0.0 A mole wt.= 72.8539 g 3 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 2.1900 a= 2.190000414 b= 0 c= 0 d= 2272.89 e= 0 f= 0 Fe(OH)2 charge= 0 ion size= 0.0 A mole wt.= 89.8608 g 3 species in reaction 1.000 Fe++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 20.6000 a= 20.5999917 b= 0 c= 0 d= 6250.37 e= 0 f= 0 Fe(OH)2(Cit)-- formula= Fe(OH)2COOCH2COHCOOCH2COO-- charge= -2 ion size= 0.0 A mole wt.= 278.9593 g 4 species in reaction 1.000 Fe+++ -2.000 H+ 1.000 Cit--- 2.000 H2O * log10 K(298 K) = -2.9000 a= -2.9 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)2(Edta)--- formula= Fe(OH)2(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 378.0710 g 4 species in reaction 1.000 Fe+++ -2.000 H+ 1.000 Edta---- 2.000 H2O * log10 K(298 K) = -10.0600 a= -10.06 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)2(Edta)---- formula= Fe(OH)2(CH2COO)4N(CH2)2N---- charge= -4 ion size= 0.0 A mole wt.= 378.0710 g 4 species in reaction 1.000 Fe++ -2.000 H+ 1.000 Edta---- 2.000 H2O * log10 K(298 K) = 4.4000 a= 4.4 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)2(Nta)-- formula= Fe(OH)2N(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 277.9749 g 4 species in reaction 1.000 Fe+++ -2.000 H+ 1.000 Nta--- 2.000 H2O * log10 K(298 K) = -6.0000 a= -6 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 89.8608 g 3 species in reaction 1.000 Fe+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 5.6700 a= 5.669994818 b= 0 c= 0 d= 3737.1 e= 0 f= 0 Fe(OH)3 charge= 0 ion size= 0.0 A mole wt.= 106.8677 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 12.5600 a= 12.55998492 b= 0 c= 0 d= 5419.96 e= 0 f= 0 Fe(OH)3(Edta)---- formula= Fe(OH)3(CH2COO)4N(CH2)2N---- charge= -4 ion size= 0.0 A mole wt.= 395.0779 g 4 species in reaction 1.000 Fe+++ -3.000 H+ 1.000 Edta---- 3.000 H2O * log10 K(298 K) = -8.3000 a= -8.3 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(OH)3- charge= -1 ion size= 0.0 A mole wt.= 106.8677 g 3 species in reaction 1.000 Fe++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 31.9000 a= 31.89999299 b= 0 c= 0 d= 7211.99 e= 0 f= 0 Fe(OH)4- charge= -1 ion size= 0.0 A mole wt.= 123.8746 g 3 species in reaction 1.000 Fe+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 21.6000 a= 21.60001576 b= 0 c= 0 d= 6971.67 e= 0 f= 0 Fe(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 123.8746 g 3 species in reaction 1.000 Fe++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 46.0000 a= 46.00003596 b= 0 c= 0 d= 8291.92 e= 0 f= 0 Fe(Ox) formula= Fe(COO)2 charge= 0 ion size= 0.0 A mole wt.= 143.8650 g 2 species in reaction 1.000 Fe++ 1.000 Ox-- * log10 K(298 K) = -4.1000 a= -4.1 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Ox)+ formula= Fe(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 143.8650 g 2 species in reaction 1.000 Fe+++ 1.000 Ox-- * log10 K(298 K) = -9.5300 a= -9.53 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Ox)2- formula= Fe((COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 231.8830 g 2 species in reaction 1.000 Fe+++ 2.000 Ox-- * log10 K(298 K) = -15.7500 a= -15.75 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Ox)2-- formula= Fe((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 231.8830 g 2 species in reaction 1.000 Fe++ 2.000 Ox-- * log10 K(298 K) = -6.2000 a= -6.2 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Ox)3--- formula= Fe((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 319.9010 g 2 species in reaction 1.000 Fe+++ 3.000 Ox-- * log10 K(298 K) = -20.2000 a= -20.2 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(Ox)3---- formula= Fe((COO)2)3---- charge= -4 ion size= 0.0 A mole wt.= 319.9010 g 2 species in reaction 1.000 Fe++ 3.000 Ox-- * log10 K(298 K) = -5.2200 a= -5.22 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(SeO3)+ charge= 1 ion size= 0.0 A mole wt.= 182.8040 g 2 species in reaction 1.000 Fe+++ 1.000 SeO3-- * log10 K(298 K) = -11.1500 a= -11.15 b= 0 c= 0 d= 0 e= 0 f= 0 Fe(SeO4) charge= 0 ion size= 0.0 A mole wt.= 198.8030 g 2 species in reaction 1.000 Fe++ 1.000 SeO4-- * log10 K(298 K) = -2.7100 a= -2.709999256 b= 0 c= 0 d= -658.247 e= 0 f= 0 Fe(SO4) charge= 0 ion size= 0.0 A mole wt.= 151.9090 g 2 species in reaction 1.000 Fe++ 1.000 SO4-- * log10 K(298 K) = -2.2000 a= -2.200003463 b= 0 c= 0 d= 705.884 e= 0 f= 0 Fe(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 151.9090 g 2 species in reaction 1.000 Fe+++ 1.000 SO4-- * log10 K(298 K) = -4.1000 a= -4.099999851 b= 0 c= 0 d= 854.489 e= 0 f= 0 Fe(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 247.9710 g 2 species in reaction 1.000 Fe+++ 2.000 SO4-- * log10 K(298 K) = -5.4000 a= -5.400005417 b= 0 c= 0 d= 1005.39 e= 0 f= 0 Fe2(Cit)2(OH)2-- formula= Fe2(COOCH2COHCOOCH2COO)2(OH)2-- charge= -2 ion size= 0.0 A mole wt.= 523.9048 g 4 species in reaction 2.000 Fe+++ -2.000 H+ 2.000 Cit--- 2.000 H2O * log10 K(298 K) = -17.0000 a= -17 b= 0 c= 0 d= 0 e= 0 f= 0 Fe2(OH)2(Edta)2---- formula= Fe2(OH)2((CH2COO)4N(CH2)2N)2---- charge= -4 ion size= 0.0 A mole wt.= 722.1282 g 4 species in reaction 2.000 Fe+++ -2.000 H+ 2.000 Edta---- 2.000 H2O * log10 K(298 K) = -40.0000 a= -40 b= 0 c= 0 d= 0 e= 0 f= 0 Fe2(OH)2++++ charge= 4 ion size= 0.0 A mole wt.= 145.7078 g 3 species in reaction 2.000 Fe+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 2.9500 a= 2.949995928 b= 0 c= 0 d= 2950.36 e= 0 f= 0 Fe3(OH)4+++++ charge= 5 ion size= 0.0 A mole wt.= 235.5686 g 3 species in reaction 3.000 Fe+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 6.3000 a= 6.3 b= 0 c= 0 d= 0 e= 0 f= 0 FeBr++ charge= 2 ion size= 0.0 A mole wt.= 135.7510 g 2 species in reaction 1.000 Fe+++ 1.000 Br- * log10 K(298 K) = -0.7000 a= -0.7 b= 0 c= 0 d= 0 e= 0 f= 0 FeBr2+ charge= 1 ion size= 0.0 A mole wt.= 215.6550 g 2 species in reaction 1.000 Fe+++ 2.000 Br- * log10 K(298 K) = -0.9000 a= -0.9 b= 0 c= 0 d= 0 e= 0 f= 0 FeCl+ charge= 1 ion size= 0.0 A mole wt.= 91.2997 g 2 species in reaction 1.000 Fe++ 1.000 Cl- * log10 K(298 K) = -0.1400 a= -0.1400000008 b= 0 c= 0 d= -4.07422 e= 0 f= 0 FeCl++ charge= 2 ion size= 0.0 A mole wt.= 91.2997 g 2 species in reaction 1.000 Fe+++ 1.000 Cl- * log10 K(298 K) = -1.4000 a= -1.4 b= 0 c= 0 d= 0 e= 0 f= 0 FeCl2 charge= 0 ion size= 0.0 A mole wt.= 126.7524 g 2 species in reaction 1.000 Fe++ 2.000 Cl- * log10 K(298 K) = 0.5200 a= 0.52 b= 0 c= 0 d= 0 e= 0 f= 0 FeCl2+ charge= 1 ion size= 0.0 A mole wt.= 126.7524 g 2 species in reaction 1.000 Fe+++ 2.000 Cl- * log10 K(298 K) = -2.1000 a= -2.1 b= 0 c= 0 d= 0 e= 0 f= 0 FeCl3 charge= 0 ion size= 0.0 A mole wt.= 162.2051 g 2 species in reaction 1.000 Fe+++ 3.000 Cl- * log10 K(298 K) = -1.1300 a= -1.13 b= 0 c= 0 d= 0 e= 0 f= 0 FeCl3- charge= -1 ion size= 0.0 A mole wt.= 162.2051 g 2 species in reaction 1.000 Fe++ 3.000 Cl- * log10 K(298 K) = -1.0200 a= -1.02 b= 0 c= 0 d= 0 e= 0 f= 0 FeCl4- charge= -1 ion size= 0.0 A mole wt.= 197.6578 g 2 species in reaction 1.000 Fe+++ 4.000 Cl- * log10 K(298 K) = 0.7900 a= 0.79 b= 0 c= 0 d= 0 e= 0 f= 0 FeCO3OH charge= 0 ion size= 0.0 A mole wt.= 132.8619 g 4 species in reaction 1.000 Fe+++ -1.000 H+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -10.7600 a= -10.76 b= 0 c= 0 d= 0 e= 0 f= 0 FeCO3OH- charge= -1 ion size= 0.0 A mole wt.= 132.8619 g 4 species in reaction 1.000 Fe++ -1.000 H+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = 4.0300 a= 4.03 b= 0 c= 0 d= 0 e= 0 f= 0 FeCrO4+ charge= 1 ion size= 0.0 A mole wt.= 171.8391 g 2 species in reaction 1.000 Fe+++ 1.000 CrO4-- * log10 K(298 K) = -7.8000 a= -7.80002861 b= 0 c= 0 d= 997.661 e= 0 f= 0 FeF+ charge= 1 ion size= 0.0 A mole wt.= 74.8454 g 2 species in reaction 1.000 Fe++ 1.000 F- * log10 K(298 K) = -1.0000 a= -1 b= 0 c= 0 d= 0 e= 0 f= 0 FeF++ charge= 2 ion size= 0.0 A mole wt.= 74.8454 g 2 species in reaction 1.000 Fe+++ 1.000 F- * log10 K(298 K) = -6.1300 a= -6.13000192 b= 0 c= 0 d= 590.083 e= 0 f= 0 FeF2+ charge= 1 ion size= 0.0 A mole wt.= 93.8438 g 2 species in reaction 1.000 Fe+++ 2.000 F- * log10 K(298 K) = -10.8001 a= -10.80005494 b= 0 c= 0 d= 1027.17 e= 0 f= 0 FeF3 charge= 0 ion size= 0.0 A mole wt.= 112.8422 g 2 species in reaction 1.000 Fe+++ 3.000 F- * log10 K(298 K) = -14.0000 a= -14.00002272 b= 0 c= 0 d= 1180.22 e= 0 f= 0 FeH2Pyrophos+ formula= FeH2P2O7+ charge= 1 ion size= 0.0 A mole wt.= 231.8034 g 3 species in reaction 1.000 Fe+++ 2.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -26.0000 a= -26 b= 0 c= 0 d= 0 e= 0 f= 0 FeHCO3+ charge= 1 ion size= 0.0 A mole wt.= 116.8629 g 3 species in reaction 1.000 Fe++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.7700 a= -11.77 b= 0 c= 0 d= 0 e= 0 f= 0 FeHSO4++ charge= 2 ion size= 0.0 A mole wt.= 152.9169 g 3 species in reaction 1.000 Fe+++ 1.000 H+ 1.000 SO4-- * log10 K(298 K) = -4.4700 a= -4.47 b= 0 c= 0 d= 0 e= 0 f= 0 FeI++ charge= 2 ion size= 0.0 A mole wt.= 182.7515 g 2 species in reaction 1.000 Fe+++ 1.000 I- * log10 K(298 K) = -2.1000 a= -2.1 b= 0 c= 0 d= 0 e= 0 f= 0 FeS2O3+ charge= 1 ion size= 0.0 A mole wt.= 167.9760 g 2 species in reaction 1.000 Fe+++ 1.000 S2O3-- * log10 K(298 K) = -3.9000 a= -3.9 b= 0 c= 0 d= 0 e= 0 f= 0 FeScn++ formula= FeSCN++ charge= 2 ion size= 0.0 A mole wt.= 113.9307 g 2 species in reaction 1.000 Fe+++ 1.000 Scn- * log10 K(298 K) = -3.1000 a= -3.1 b= 0 c= 0 d= 0 e= 0 f= 0 H(Adipate)- formula= COOH(CH2)4(COO)- charge= -1 ion size= 0.0 A mole wt.= 145.1331 g 2 species in reaction 1.000 H+ 1.000 Adipate-- * log10 K(298 K) = -5.4500 a= -5.45 b= 0 c= 0 d= 0 e= 0 f= 0 H(AsO3)-- charge= -2 ion size= 0.0 A mole wt.= 123.9265 g 2 species in reaction -2.000 H+ 1.000 H3(AsO3) * log10 K(298 K) = 23.6200 a= 23.62 b= 0 c= 0 d= 0 e= 0 f= 0 H(AsO4)-- charge= -2 ion size= 0.0 A mole wt.= 139.9255 g 2 species in reaction 1.000 H+ 1.000 AsO4--- * log10 K(298 K) = -11.6000 a= -11.59999908 b= 0 c= 0 d= -950.651 e= 0 f= 0 H(Cit)-- formula= HCOOCH2COHCOOCH2COO-- charge= -2 ion size= 0.0 A mole wt.= 190.1064 g 2 species in reaction 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -6.3600 a= -6.359994833 b= 0 c= 0 d= 172.371 e= 0 f= 0 H(Edta)--- formula= H(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 289.2181 g 2 species in reaction 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -11.2400 a= -11.23998088 b= 0 c= 0 d= -1034.22 e= 0 f= 0 H(Malonate)- formula= HCH2(COO)2- charge= -1 ion size= 0.0 A mole wt.= 103.0527 g 2 species in reaction 1.000 H+ 1.000 Malonate-- * log10 K(298 K) = -5.7100 a= -5.71 b= 0 c= 0 d= 0 e= 0 f= 0 H(Nta)-- formula= HN(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 189.1220 g 2 species in reaction 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -10.2800 a= -10.28 b= 0 c= 0 d= 0 e= 0 f= 0 H(Ox)- formula= H(COO)2- charge= -1 ion size= 0.0 A mole wt.= 89.0259 g 2 species in reaction 1.000 H+ 1.000 Ox-- * log10 K(298 K) = -4.2500 a= -4.249996763 b= 0 c= 0 d= 381.305 e= 0 f= 0 H(Pyrophos)--- formula= HP2O7--- charge= -3 ion size= 0.0 A mole wt.= 174.9485 g 2 species in reaction 1.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -9.4000 a= -9.4 b= 0 c= 0 d= 0 e= 0 f= 0 H(S2O3)- charge= -1 ion size= 0.0 A mole wt.= 113.1369 g 2 species in reaction 1.000 H+ 1.000 S2O3-- * log10 K(298 K) = -1.7200 a= -1.719997179 b= 0 c= 0 d= 431.084 e= 0 f= 0 H(SeO3)- charge= -1 ion size= 0.0 A mole wt.= 127.9649 g 2 species in reaction 1.000 H+ 1.000 SeO3-- * log10 K(298 K) = -8.3600 a= -8.36000543 b= 0 c= 0 d= -270.048 e= 0 f= 0 H(SeO4)- charge= -1 ion size= 0.0 A mole wt.= 143.9639 g 2 species in reaction 1.000 H+ 1.000 SeO4-- * log10 K(298 K) = -1.7500 a= -1.749995304 b= 0 c= 0 d= 1086.46 e= 0 f= 0 H(SO3)- charge= -1 ion size= 0.0 A mole wt.= 81.0709 g 2 species in reaction 1.000 H+ 1.000 SO3-- * log10 K(298 K) = -7.1700 a= -7.170003929 b= 0 c= 0 d= 191.593 e= 0 f= 0 H(SO4)- charge= -1 ion size= 0.0 A mole wt.= 97.0699 g 2 species in reaction 1.000 H+ 1.000 SO4-- * log10 K(298 K) = -1.9800 a= -1.980000257 b= 0 c= 0 d= 1172.12 e= 0 f= 0 H(Suberate)- formula= H(CH2)6(COO)2- charge= -1 ion size= 0.0 A mole wt.= 173.1867 g 2 species in reaction 1.000 H+ 1.000 Suberate-- * log10 K(298 K) = -5.4000 a= -5.4 b= 0 c= 0 d= 0 e= 0 f= 0 H(Succinat)- formula= H(CH2)2(COO)2- charge= -1 ion size= 0.0 A mole wt.= 117.0795 g 2 species in reaction 1.000 H+ 1.000 Succinat-- * log10 K(298 K) = -5.7100 a= -5.71 b= 0 c= 0 d= 0 e= 0 f= 0 H2(Adipate) formula= (CH2)4(COOH)2 charge= 0 ion size= 0.0 A mole wt.= 146.1410 g 2 species in reaction 2.000 H+ 1.000 Adipate-- * log10 K(298 K) = -9.8900 a= -9.89 b= 0 c= 0 d= 0 e= 0 f= 0 H2(AsO3)- charge= -1 ion size= 0.0 A mole wt.= 124.9344 g 2 species in reaction -1.000 H+ 1.000 H3(AsO3) * log10 K(298 K) = 9.2200 a= 9.21999241 b= 0 c= 0 d= 1431.72 e= 0 f= 0 H2(AsO4)- charge= -1 ion size= 0.0 A mole wt.= 140.9334 g 2 species in reaction 2.000 H+ 1.000 AsO4--- * log10 K(298 K) = -18.3700 a= -18.37000775 b= 0 c= 0 d= -1118.84 e= 0 f= 0 H2(Cit)- formula= H2COOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 191.1143 g 2 species in reaction 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -11.1400 a= -11.14002702 b= 0 c= 0 d= 47.0102 e= 0 f= 0 H2(Edta)-- formula= H2(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 290.2260 g 2 species in reaction 2.000 H+ 1.000 Edta---- * log10 K(298 K) = -18.0400 a= -18.04001223 b= 0 c= 0 d= -1828.17 e= 0 f= 0 H2(Malonate) formula= CH2(COOH)2 charge= 0 ion size= 0.0 A mole wt.= 104.0606 g 2 species in reaction 2.000 H+ 1.000 Malonate-- * log10 K(298 K) = -8.6700 a= -8.67 b= 0 c= 0 d= 0 e= 0 f= 0 H2(Nta)- formula= H2N(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 190.1299 g 2 species in reaction 2.000 H+ 1.000 Nta--- * log10 K(298 K) = -13.2000 a= -13.2 b= 0 c= 0 d= 0 e= 0 f= 0 H2(Ox) formula= (COOH)2 charge= 0 ion size= 0.0 A mole wt.= 90.0338 g 2 species in reaction 2.000 H+ 1.000 Ox-- * log10 K(298 K) = -5.6500 a= -5.650001597 b= 0 c= 0 d= 553.676 e= 0 f= 0 H2(Pyrophos)-- formula= H2P2O7-- charge= -2 ion size= 0.0 A mole wt.= 175.9564 g 2 species in reaction 2.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -16.0500 a= -16.05 b= 0 c= 0 d= 0 e= 0 f= 0 H2(S2O3) charge= 0 ion size= 0.0 A mole wt.= 114.1448 g 2 species in reaction 2.000 H+ 1.000 S2O3-- * log10 K(298 K) = -2.3200 a= -2.319988167 b= 0 c= 0 d= 1197.04 e= 0 f= 0 H2(SeO3) charge= 0 ion size= 0.0 A mole wt.= 128.9728 g 2 species in reaction 2.000 H+ 1.000 SeO3-- * log10 K(298 K) = -11.0000 a= -11.00004615 b= 0 c= 0 d= 96.1098 e= 0 f= 0 H2(SiO4)-- charge= -2 ion size= 0.0 A mole wt.= 94.0973 g 2 species in reaction -2.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 23.1400 a= 23.14002646 b= 0 c= 0 d= 3917.52 e= 0 f= 0 H2(SO3) charge= 0 ion size= 0.0 A mole wt.= 82.0788 g 2 species in reaction 2.000 H+ 1.000 SO3-- * log10 K(298 K) = -9.0300 a= -9.029989804 b= 0 c= 0 d= 1120.57 e= 0 f= 0 H2(Suberate) formula= (CH2)6(COOH)2 charge= 0 ion size= 0.0 A mole wt.= 174.1946 g 2 species in reaction 2.000 H+ 1.000 Suberate-- * log10 K(298 K) = -9.9200 a= -9.92 b= 0 c= 0 d= 0 e= 0 f= 0 H2(Succinat) formula= (CH2)2(COOH)2 charge= 0 ion size= 0.0 A mole wt.= 118.0874 g 2 species in reaction 2.000 H+ 1.000 Succinat-- * log10 K(298 K) = -9.9500 a= -9.95 b= 0 c= 0 d= 0 e= 0 f= 0 H2CrO4 charge= 0 ion size= 0.0 A mole wt.= 118.0079 g 2 species in reaction 2.000 H+ 1.000 CrO4-- * log10 K(298 K) = -6.3200 a= -6.319989049 b= 0 c= 0 d= 2068.24 e= 0 f= 0 H2CrPO7- charge= -1 ion size= 0.0 A mole wt.= 196.9787 g 4 species in reaction 2.000 H+ 1.000 H2(PO4)- 1.000 CrO4-- -1.000 H2O * log10 K(298 K) = -9.0200 a= -9.020013197 b= 0 c= 0 d= -2689.51 e= 0 f= 0 H2Glu formula= HOCH2(CHOH)4COOH charge= 0 ion size= 0.0 A mole wt.= 196.1538 g 2 species in reaction 1.000 H+ 1.000 HGlu- * log10 K(298 K) = -3.9000 a= -3.9 b= 0 c= 0 d= 0 e= 0 f= 0 H2Isa formula= C6H12O6 charge= 0 ion size= 0.0 A mole wt.= 180.1548 g 2 species in reaction 1.000 H+ 1.000 HIsa- * log10 K(298 K) = -4.0000 a= -4 b= 0 c= 0 d= 0 e= 0 f= 0 H2MoO4 charge= 0 ion size= 0.0 A mole wt.= 161.9518 g 2 species in reaction 2.000 H+ 1.000 MoO4-- * log10 K(298 K) = -8.1500 a= -8.15 b= 0 c= 0 d= 0 e= 0 f= 0 H2Phthalat formula= C6H4(COOH)2 charge= 0 ion size= 0.0 A mole wt.= 166.1314 g 2 species in reaction 2.000 H+ 1.000 Phthalat-- * log10 K(298 K) = -8.3200 a= -8.32 b= 0 c= 0 d= 0 e= 0 f= 0 H2S charge= 0 ion size= 0.0 A mole wt.= 34.0818 g 2 species in reaction 1.000 H+ 1.000 HS- * log10 K(298 K) = -6.9900 a= -6.990001883 b= 0 c= 0 d= -1164.81 e= 0 f= 0 H2S2O4 charge= 0 ion size= 0.0 A mole wt.= 130.1438 g 2 species in reaction 2.000 H+ 1.000 S2O4-- * log10 K(298 K) = -2.8000 a= -2.800011166 b= 0 c= 0 d= 1054.75 e= 0 f= 0 H2Se charge= 0 ion size= 0.0 A mole wt.= 80.9758 g 2 species in reaction 1.000 H+ 1.000 HSe- * log10 K(298 K) = -3.8500 a= -3.85 b= 0 c= 0 d= 0 e= 0 f= 0 H3(AsO4) charge= 0 ion size= 0.0 A mole wt.= 141.9413 g 2 species in reaction 3.000 H+ 1.000 AsO4--- * log10 K(298 K) = -20.6300 a= -20.62996052 b= 0 c= 0 d= -750.074 e= 0 f= 0 H3(Cit) formula= COOHCH2COHCOOHCH2COOH charge= 0 ion size= 0.0 A mole wt.= 192.1222 g 2 species in reaction 3.000 H+ 1.000 Cit--- * log10 K(298 K) = -14.2700 a= -14.2699926 b= 0 c= 0 d= -188.041 e= 0 f= 0 H3(Edta)- formula= H3(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 291.2339 g 2 species in reaction 3.000 H+ 1.000 Edta---- * log10 K(298 K) = -21.1900 a= -21.18997523 b= 0 c= 0 d= -1457.32 e= 0 f= 0 H3(Nta) formula= N(CH2COOH)3 charge= 0 ion size= 0.0 A mole wt.= 191.1378 g 2 species in reaction 3.000 H+ 1.000 Nta--- * log10 K(298 K) = -15.3300 a= -15.33 b= 0 c= 0 d= 0 e= 0 f= 0 H3(PO4) charge= 0 ion size= 0.0 A mole wt.= 97.9935 g 2 species in reaction 1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -2.1400 a= -2.139998606 b= 0 c= 0 d= 442.941 e= 0 f= 0 H3(Pyrophos)- formula= H3P2O7- charge= -1 ion size= 0.0 A mole wt.= 176.9643 g 2 species in reaction 3.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -18.3000 a= -18.3 b= 0 c= 0 d= 0 e= 0 f= 0 H3(SiO4)- charge= -1 ion size= 0.0 A mole wt.= 95.1052 g 2 species in reaction -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 9.8400 a= 9.839985626 b= 0 c= 0 d= 1533.73 e= 0 f= 0 H4(Edta) formula= (CH2COOH)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 292.2418 g 2 species in reaction 4.000 H+ 1.000 Edta---- * log10 K(298 K) = -23.4200 a= -23.4199891 b= 0 c= 0 d= -1358.07 e= 0 f= 0 H4(Nta)+ formula= HN(CH2COOH)3+ charge= 1 ion size= 0.0 A mole wt.= 192.1457 g 2 species in reaction 4.000 H+ 1.000 Nta--- * log10 K(298 K) = -16.1300 a= -16.13 b= 0 c= 0 d= 0 e= 0 f= 0 H4(Pyrophos) formula= H4P2O7 charge= 0 ion size= 0.0 A mole wt.= 177.9722 g 2 species in reaction 4.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -19.3000 a= -19.3 b= 0 c= 0 d= 0 e= 0 f= 0 H5(Edta)+ formula= H(CH2COOH)4N(CH2)2N+ charge= 1 ion size= 0.0 A mole wt.= 293.2497 g 2 species in reaction 5.000 H+ 1.000 Edta---- * log10 K(298 K) = -24.7200 a= -24.72 b= 0 c= 0 d= 0 e= 0 f= 0 H6(Edta)++ formula= H2(CH2COOH)4N(CH2)2N++ charge= 2 ion size= 0.0 A mole wt.= 294.2576 g 2 species in reaction 6.000 H+ 1.000 Edta---- * log10 K(298 K) = -24.2200 a= -24.22 b= 0 c= 0 d= 0 e= 0 f= 0 HAcetate formula= CH3COOH charge= 0 ion size= 0.0 A mole wt.= 60.0516 g 2 species in reaction 1.000 H+ 1.000 Acetate- * log10 K(298 K) = -4.7600 a= -4.760001912 b= 0 c= 0 d= 13.0584 e= 0 f= 0 HB2O4- charge= -1 ion size= 0.0 A mole wt.= 86.6259 g 3 species in reaction 1.000 H+ 2.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -9.1700 a= -9.17 b= 0 c= 0 d= 0 e= 0 f= 0 HCO3- charge= -1 ion size= 0.0 A mole wt.= 61.0159 g 2 species in reaction 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -10.3300 a= -10.3299945 b= 0 c= 0 d= -767.833 e= 0 f= 0 HCrO4- charge= -1 ion size= 0.0 A mole wt.= 117.0000 g 2 species in reaction 1.000 H+ 1.000 CrO4-- * log10 K(298 K) = -6.5200 a= -6.520003938 b= 0 c= 0 d= 314.237 e= 0 f= 0 HCrPO7-- charge= -2 ion size= 0.0 A mole wt.= 195.9708 g 4 species in reaction 1.000 H+ 1.000 H2(PO4)- 1.000 CrO4-- -1.000 H2O * log10 K(298 K) = -6.3700 a= -6.370002379 b= 0 c= 0 d= -1900.78 e= 0 f= 0 Hf(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 418.5220 g 2 species in reaction 4.000 CO3-- 1.000 Hf++++ * log10 K(298 K) = -42.9000 a= -42.9 b= 0 c= 0 d= 0 e= 0 f= 0 Hf(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 302.4974 g 2 species in reaction 2.000 NO3- 1.000 Hf++++ * log10 K(298 K) = -2.4900 a= -2.49 b= 0 c= 0 d= 0 e= 0 f= 0 Hf(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 195.4969 g 3 species in reaction -1.000 H+ 1.000 Hf++++ 1.000 H2O * log10 K(298 K) = 0.2000 a= 0.2 b= 0 c= 0 d= 0 e= 0 f= 0 Hf(OH)4 charge= 0 ion size= 0.0 A mole wt.= 246.5176 g 3 species in reaction -4.000 H+ 1.000 Hf++++ 4.000 H2O * log10 K(298 K) = 11.2000 a= 11.2 b= 0 c= 0 d= 0 e= 0 f= 0 Hf(OH)5- charge= -1 ion size= 0.0 A mole wt.= 263.5245 g 3 species in reaction -5.000 H+ 1.000 Hf++++ 5.000 H2O * log10 K(298 K) = 20.3000 a= 20.3 b= 0 c= 0 d= 0 e= 0 f= 0 Hf(OH)6-- charge= -2 ion size= 0.0 A mole wt.= 280.5314 g 3 species in reaction -6.000 H+ 1.000 Hf++++ 6.000 H2O * log10 K(298 K) = 32.8000 a= 32.8 b= 0 c= 0 d= 0 e= 0 f= 0 Hf(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 370.6140 g 2 species in reaction 2.000 SO4-- 1.000 Hf++++ * log10 K(298 K) = -10.1100 a= -10.11 b= 0 c= 0 d= 0 e= 0 f= 0 HfBr+++ charge= 3 ion size= 0.0 A mole wt.= 258.3940 g 2 species in reaction 1.000 Br- 1.000 Hf++++ * log10 K(298 K) = -0.3800 a= -0.38 b= 0 c= 0 d= 0 e= 0 f= 0 HfCl+++ charge= 3 ion size= 0.0 A mole wt.= 213.9427 g 2 species in reaction 1.000 Cl- 1.000 Hf++++ * log10 K(298 K) = -2.2000 a= -2.2 b= 0 c= 0 d= 0 e= 0 f= 0 HfCl2++ charge= 2 ion size= 0.0 A mole wt.= 249.3954 g 2 species in reaction 2.000 Cl- 1.000 Hf++++ * log10 K(298 K) = -2.0500 a= -2.05 b= 0 c= 0 d= 0 e= 0 f= 0 HfF+++ charge= 3 ion size= 0.0 A mole wt.= 197.4884 g 2 species in reaction 1.000 F- 1.000 Hf++++ * log10 K(298 K) = -9.2900 a= -9.29 b= 0 c= 0 d= 0 e= 0 f= 0 HfF2++ charge= 2 ion size= 0.0 A mole wt.= 216.4868 g 2 species in reaction 2.000 F- 1.000 Hf++++ * log10 K(298 K) = -17.8500 a= -17.85 b= 0 c= 0 d= 0 e= 0 f= 0 HfF3+ charge= 1 ion size= 0.0 A mole wt.= 235.4852 g 2 species in reaction 3.000 F- 1.000 Hf++++ * log10 K(298 K) = -25.0800 a= -25.08 b= 0 c= 0 d= 0 e= 0 f= 0 HfF4 charge= 0 ion size= 0.0 A mole wt.= 254.4836 g 2 species in reaction 4.000 F- 1.000 Hf++++ * log10 K(298 K) = -31.4100 a= -31.41 b= 0 c= 0 d= 0 e= 0 f= 0 HfI+++ charge= 3 ion size= 0.0 A mole wt.= 305.3945 g 2 species in reaction 1.000 I- 1.000 Hf++++ * log10 K(298 K) = -0.0200 a= -0.02 b= 0 c= 0 d= 0 e= 0 f= 0 HfNO3+++ charge= 3 ion size= 0.0 A mole wt.= 240.4937 g 2 species in reaction 1.000 NO3- 1.000 Hf++++ * log10 K(298 K) = -1.8500 a= -1.85 b= 0 c= 0 d= 0 e= 0 f= 0 HfSO4++ charge= 2 ion size= 0.0 A mole wt.= 274.5520 g 2 species in reaction 1.000 SO4-- 1.000 Hf++++ * log10 K(298 K) = -6.0600 a= -6.06 b= 0 c= 0 d= 0 e= 0 f= 0 HMoO4- charge= -1 ion size= 0.0 A mole wt.= 160.9439 g 2 species in reaction 1.000 H+ 1.000 MoO4-- * log10 K(298 K) = -4.1101 a= -4.110050696 b= 0 c= 0 d= 3059.63 e= 0 f= 0 Ho(CO3)+ charge= 1 ion size= 0.0 A mole wt.= 224.9383 g 2 species in reaction 1.000 Ho+++ 1.000 CO3-- * log10 K(298 K) = -8.0000 a= -8.000032484 b= 0 c= 0 d= 8804.33 e= 0 f= 0 Ho(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 284.9463 g 2 species in reaction 1.000 Ho+++ 2.000 CO3-- * log10 K(298 K) = -13.3000 a= -13.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 344.9543 g 2 species in reaction 1.000 Ho+++ 3.000 CO3-- * log10 K(298 K) = -14.8000 a= -14.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 261.9159 g 2 species in reaction 1.000 Ho+++ 1.000 H2(PO4)- * log10 K(298 K) = -2.3000 a= -2.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(HCO3)++ charge= 2 ion size= 0.0 A mole wt.= 225.9462 g 3 species in reaction 1.000 H+ 1.000 Ho+++ 1.000 CO3-- * log10 K(298 K) = -12.5000 a= -12.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 260.9080 g 3 species in reaction -1.000 H+ 1.000 Ho+++ 1.000 H2(PO4)- * log10 K(298 K) = 1.4100 a= 1.41 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 356.8857 g 3 species in reaction -2.000 H+ 1.000 Ho+++ 2.000 H2(PO4)- * log10 K(298 K) = 4.5200 a= 4.52 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(NO3)++ charge= 2 ion size= 0.0 A mole wt.= 226.9340 g 2 species in reaction 1.000 Ho+++ 1.000 NO3- * log10 K(298 K) = -0.5000 a= -0.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(OH)++ charge= 2 ion size= 0.0 A mole wt.= 181.9372 g 3 species in reaction -1.000 H+ 1.000 Ho+++ 1.000 H2O * log10 K(298 K) = 7.9000 a= 7.899993429 b= 0 c= 0 d= 4173.46 e= 0 f= 0 Ho(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 198.9441 g 3 species in reaction -2.000 H+ 1.000 Ho+++ 2.000 H2O * log10 K(298 K) = 15.7000 a= 15.69999204 b= 0 c= 0 d= 7513.64 e= 0 f= 0 Ho(OH)3 charge= 0 ion size= 0.0 A mole wt.= 215.9510 g 3 species in reaction -3.000 H+ 1.000 Ho+++ 3.000 H2O * log10 K(298 K) = 26.2000 a= 26.20003227 b= 0 c= 0 d= 11808.3 e= 0 f= 0 Ho(OH)4- charge= -1 ion size= 0.0 A mole wt.= 232.9579 g 3 species in reaction -4.000 H+ 1.000 Ho+++ 4.000 H2O * log10 K(298 K) = 40.7001 a= 40.70005574 b= 0 c= 0 d= 15451.7 e= 0 f= 0 Ho(PO4) charge= 0 ion size= 0.0 A mole wt.= 259.9001 g 3 species in reaction -2.000 H+ 1.000 Ho+++ 1.000 H2(PO4)- * log10 K(298 K) = 6.9600 a= 6.96 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 354.8699 g 3 species in reaction -4.000 H+ 1.000 Ho+++ 2.000 H2(PO4)- * log10 K(298 K) = 17.8200 a= 17.82 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 260.9923 g 2 species in reaction 1.000 Ho+++ 1.000 SO4-- * log10 K(298 K) = -3.4000 a= -3.4000032 b= 0 c= 0 d= 803.561 e= 0 f= 0 Ho(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 357.0543 g 2 species in reaction 1.000 Ho+++ 2.000 SO4-- * log10 K(298 K) = -4.9000 a= -4.900013642 b= 0 c= 0 d= 1236.26 e= 0 f= 0 HoCl++ charge= 2 ion size= 0.0 A mole wt.= 200.3830 g 2 species in reaction 1.000 Ho+++ 1.000 Cl- * log10 K(298 K) = -0.7400 a= -0.7399948231 b= 0 c= 0 d= 1149.82 e= 0 f= 0 HoCl2+ charge= 1 ion size= 0.0 A mole wt.= 235.8357 g 2 species in reaction 1.000 Ho+++ 2.000 Cl- * log10 K(298 K) = 0.2900 a= 0.2900184504 b= 0 c= 0 d= 1899.06 e= 0 f= 0 HoF++ charge= 2 ion size= 0.0 A mole wt.= 183.9287 g 2 species in reaction 1.000 Ho+++ 1.000 F- * log10 K(298 K) = -4.3300 a= -4.329999026 b= 0 c= 0 d= 1345.59 e= 0 f= 0 HoF2+ charge= 1 ion size= 0.0 A mole wt.= 202.9271 g 2 species in reaction 1.000 Ho+++ 2.000 F- * log10 K(298 K) = -6.5200 a= -6.519993778 b= 0 c= 0 d= 1102.65 e= 0 f= 0 HoSiO(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 260.0355 g 3 species in reaction -1.000 H+ 1.000 Ho+++ 1.000 H4(SiO4) * log10 K(298 K) = 2.6200 a= 2.62 b= 0 c= 0 d= 0 e= 0 f= 0 HPhthalat- formula= HC6H4(COO)2- charge= -1 ion size= 0.0 A mole wt.= 165.1235 g 2 species in reaction 1.000 H+ 1.000 Phthalat-- * log10 K(298 K) = -5.3400 a= -5.34 b= 0 c= 0 d= 0 e= 0 f= 0 HPO4-- charge= -2 ion size= 0.0 A mole wt.= 95.9777 g 2 species in reaction -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 7.2100 a= 7.210002604 b= 0 c= 0 d= 188.041 e= 0 f= 0 HS2O4- charge= -1 ion size= 0.0 A mole wt.= 129.1359 g 2 species in reaction 1.000 H+ 1.000 S2O4-- * log10 K(298 K) = -2.5000 a= -2.49999521 b= 0 c= 0 d= 199.428 e= 0 f= 0 HSO5- charge= -1 ion size= 0.0 A mole wt.= 113.0689 g 4 species in reaction -1.000 H+ -2.000 e- 1.000 SO4-- 1.000 H2O * log10 K(298 K) = 60.2102 a= 60.21015155 b= 0 c= 0 d= 21914.1 e= 0 f= 0 I3- charge= -1 ion size= 0.0 A mole wt.= 380.7135 g 2 species in reaction -2.000 e- 3.000 I- * log10 K(298 K) = 18.1700 a= 18.16999903 b= 0 c= 0 d= 6209.37 e= 0 f= 0 ICl2- charge= -1 ion size= 0.0 A mole wt.= 197.8099 g 3 species in reaction -2.000 e- 2.000 Cl- 1.000 I- * log10 K(298 K) = 26.8000 a= 26.8 b= 0 c= 0 d= 0 e= 0 f= 0 IO- charge= -1 ion size= 0.0 A mole wt.= 142.9035 g 4 species in reaction -2.000 H+ -2.000 e- 1.000 I- 1.000 H2O * log10 K(298 K) = 44.0000 a= 44 b= 0 c= 0 d= 0 e= 0 f= 0 IO4- charge= -1 ion size= 0.0 A mole wt.= 190.9005 g 4 species in reaction -8.000 H+ -8.000 e- 1.000 I- 4.000 H2O * log10 K(298 K) = 164.9798 a= 164.9798316 b= 0 c= 0 d= 54774.1 e= 0 f= 0 K(Edta)--- formula= K(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 327.3085 g 2 species in reaction 1.000 K+ 1.000 Edta---- * log10 K(298 K) = -1.8000 a= -1.8 b= 0 c= 0 d= 0 e= 0 f= 0 K(HNta)- formula= K(HN(CH2COO)3)- charge= -1 ion size= 0.0 A mole wt.= 228.2203 g 3 species in reaction 1.000 K+ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -10.3000 a= -10.3 b= 0 c= 0 d= 0 e= 0 f= 0 K(HPO4)- charge= -1 ion size= 0.0 A mole wt.= 135.0760 g 3 species in reaction 1.000 K+ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 6.4000 a= 6.400013657 b= 0 c= 0 d= 1650.01 e= 0 f= 0 K(IO3) charge= 0 ion size= 0.0 A mole wt.= 213.9998 g 2 species in reaction 1.000 K+ 1.000 IO3- * log10 K(298 K) = -0.0200 a= -0.02 b= 0 c= 0 d= 0 e= 0 f= 0 K(Nta)-- formula= KN(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 227.2124 g 2 species in reaction 1.000 K+ 1.000 Nta--- * log10 K(298 K) = -1.3000 a= -1.3 b= 0 c= 0 d= 0 e= 0 f= 0 K(Pyrophos)--- formula= KP2O7--- charge= -3 ion size= 0.0 A mole wt.= 213.0389 g 2 species in reaction 1.000 K+ 1.000 Pyrophos---- * log10 K(298 K) = -2.1000 a= -2.099998796 b= 0 c= 0 d= 371.537 e= 0 f= 0 KAl(OH)4 charge= 0 ion size= 0.0 A mole wt.= 134.1074 g 4 species in reaction 1.000 K+ 1.000 Al+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 24.2199 a= 24.21988271 b= 0 c= 0 d= 11056.5 e= 0 f= 0 KH2PO4 charge= 0 ion size= 0.0 A mole wt.= 136.0839 g 2 species in reaction 1.000 K+ 1.000 H2(PO4)- * log10 K(298 K) = -0.4400 a= -0.44 b= 0 c= 0 d= 0 e= 0 f= 0 KI charge= 0 ion size= 0.0 A mole wt.= 166.0028 g 2 species in reaction 1.000 K+ 1.000 I- * log10 K(298 K) = 1.5700 a= 1.570001273 b= 0 c= 0 d= 470.677 e= 0 f= 0 KPO4-- charge= -2 ion size= 0.0 A mole wt.= 134.0681 g 3 species in reaction 1.000 K+ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 18.2600 a= 18.26 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(Cit)- formula= MgCOOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 213.4035 g 2 species in reaction 1.000 Mg++ 1.000 Cit--- * log10 K(298 K) = -4.8100 a= -4.81 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(CO3) charge= 0 ion size= 0.0 A mole wt.= 84.3130 g 2 species in reaction 1.000 Mg++ 1.000 CO3-- * log10 K(298 K) = -2.9800 a= -2.979995425 b= 0 c= 0 d= 460.178 e= 0 f= 0 Mg(Edta)-- formula= Mg(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 312.5152 g 2 species in reaction 1.000 Mg++ 1.000 Edta---- * log10 K(298 K) = -10.9000 a= -10.90000912 b= 0 c= 0 d= 1034.22 e= 0 f= 0 Mg(H2Cit)+ formula= Mg(H2COOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 215.4193 g 3 species in reaction 1.000 Mg++ 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -12.4500 a= -12.45 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 121.2906 g 2 species in reaction 1.000 Mg++ 1.000 H2(PO4)- * log10 K(298 K) = -1.1700 a= -1.170003463 b= 0 c= 0 d= 705.884 e= 0 f= 0 Mg(H3SiO4)+ charge= 1 ion size= 0.0 A mole wt.= 119.4102 g 3 species in reaction 1.000 Mg++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 8.5800 a= 8.579999316 b= 0 c= 0 d= 1416.26 e= 0 f= 0 Mg(HCit) formula= Mg(HCOOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 214.4114 g 3 species in reaction 1.000 Mg++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -8.9600 a= -8.96 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 85.3209 g 3 species in reaction 1.000 Mg++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.3700 a= -11.36999691 b= 0 c= 0 d= -673.186 e= 0 f= 0 Mg(HEdta)- formula= MgH(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 313.5231 g 3 species in reaction 1.000 Mg++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -15.4000 a= -15.4 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(HMalonate)+ formula= MgH(CH2(COO)2)+ charge= 1 ion size= 0.0 A mole wt.= 127.3577 g 3 species in reaction 1.000 Mg++ 1.000 H+ 1.000 Malonate-- * log10 K(298 K) = -7.0500 a= -7.05 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(HPO4) charge= 0 ion size= 0.0 A mole wt.= 120.2827 g 3 species in reaction 1.000 Mg++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.3000 a= 4.30000317 b= 0 c= 0 d= 843.676 e= 0 f= 0 Mg(HSuccinat)+ formula= Mg(H(CH2)2(COO)2)+ charge= 1 ion size= 0.0 A mole wt.= 141.3845 g 3 species in reaction 1.000 Mg++ 1.000 H+ 1.000 Succinat-- * log10 K(298 K) = -6.7200 a= -6.72 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(IO3)+ charge= 1 ion size= 0.0 A mole wt.= 199.2065 g 2 species in reaction 1.000 Mg++ 1.000 IO3- * log10 K(298 K) = -0.7000 a= -0.7 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(Malonate) formula= MgCH2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 126.3498 g 2 species in reaction 1.000 Mg++ 1.000 Malonate-- * log10 K(298 K) = -2.8600 a= -2.86 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 41.3354 g 2 species in reaction 1.000 Mg++ 1.000 NH3 * log10 K(298 K) = -0.1000 a= -0.09999976555 b= 0 c= 0 d= 1.14914 e= 0 f= 0 Mg(NH3)3++ charge= 2 ion size= 0.0 A mole wt.= 75.3962 g 2 species in reaction 1.000 Mg++ 3.000 NH3 * log10 K(298 K) = 0.3000 a= 0.2999997033 b= 0 c= 0 d= 3.44742 e= 0 f= 0 Mg(NH3)4++ charge= 2 ion size= 0.0 A mole wt.= 92.4266 g 2 species in reaction 1.000 Mg++ 4.000 NH3 * log10 K(298 K) = 1.0000 a= 0.9999999042 b= 0 c= 0 d= 4.59655 e= 0 f= 0 Mg(Nta)- formula= MgN(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 212.4191 g 2 species in reaction 1.000 Mg++ 1.000 Nta--- * log10 K(298 K) = -6.7900 a= -6.79 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(OH)+ charge= 1 ion size= 0.0 A mole wt.= 41.3119 g 3 species in reaction 1.000 Mg++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 11.6800 a= 11.6799881 b= 0 c= 0 d= 3282.04 e= 0 f= 0 Mg(Ox) formula= Mg(COO)2 charge= 0 ion size= 0.0 A mole wt.= 112.3230 g 2 species in reaction 1.000 Mg++ 1.000 Ox-- * log10 K(298 K) = -3.5600 a= -3.56 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(Ox)2-- formula= Mg((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 200.3410 g 2 species in reaction 1.000 Mg++ 2.000 Ox-- * log10 K(298 K) = -5.1700 a= -5.17 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(PO4)- charge= -1 ion size= 0.0 A mole wt.= 119.2748 g 3 species in reaction 1.000 Mg++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 14.7100 a= 14.71000124 b= 0 c= 0 d= 1628.12 e= 0 f= 0 Mg(Pyrophos)-- formula= MgP2O7-- charge= -2 ion size= 0.0 A mole wt.= 198.2456 g 2 species in reaction 1.000 Mg++ 1.000 Pyrophos---- * log10 K(298 K) = -7.2000 a= -7.199999049 b= 0 c= 0 d= 655.009 e= 0 f= 0 Mg(S2O3) charge= 0 ion size= 0.0 A mole wt.= 136.4340 g 2 species in reaction 1.000 Mg++ 1.000 S2O3-- * log10 K(298 K) = -1.8200 a= -1.82 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(SeO4) charge= 0 ion size= 0.0 A mole wt.= 167.2610 g 2 species in reaction 1.000 Mg++ 1.000 SeO4-- * log10 K(298 K) = -2.2000 a= -2.20000212 b= 0 c= 0 d= -345.473 e= 0 f= 0 Mg(SO4) charge= 0 ion size= 0.0 A mole wt.= 120.3670 g 2 species in reaction 1.000 Mg++ 1.000 SO4-- * log10 K(298 K) = -2.2300 a= -2.230004635 b= 0 c= 0 d= 305.984 e= 0 f= 0 Mg(Succinat) formula= Mg(CH2)2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 140.3766 g 2 species in reaction 1.000 Mg++ 1.000 Succinat-- * log10 K(298 K) = -2.2700 a= -2.27 b= 0 c= 0 d= 0 e= 0 f= 0 Mg4(OH)4++++ charge= 4 ion size= 0.0 A mole wt.= 165.2476 g 3 species in reaction 4.000 Mg++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 39.7500 a= 39.74999654 b= 0 c= 0 d= 11971.2 e= 0 f= 0 MgB(OH)4+ charge= 1 ion size= 0.0 A mole wt.= 103.1436 g 2 species in reaction 1.000 Mg++ 1.000 B(OH)4- * log10 K(298 K) = -1.6000 a= -1.6 b= 0 c= 0 d= 0 e= 0 f= 0 MgBr+ charge= 1 ion size= 0.0 A mole wt.= 104.2090 g 2 species in reaction 1.000 Mg++ 1.000 Br- * log10 K(298 K) = 0.1400 a= 0.14 b= 0 c= 0 d= 0 e= 0 f= 0 MgCl+ charge= 1 ion size= 0.0 A mole wt.= 59.7577 g 2 species in reaction 1.000 Mg++ 1.000 Cl- * log10 K(298 K) = -0.3500 a= -0.3499999818 b= 0 c= 0 d= -90.2596 e= 0 f= 0 MgF+ charge= 1 ion size= 0.0 A mole wt.= 43.3034 g 2 species in reaction 1.000 Mg++ 1.000 F- * log10 K(298 K) = -1.8000 a= -1.800001836 b= 0 c= 0 d= 699.355 e= 0 f= 0 MgI+ charge= 1 ion size= 0.0 A mole wt.= 151.2095 g 2 species in reaction 1.000 Mg++ 1.000 I- * log10 K(298 K) = -0.1800 a= -0.18 b= 0 c= 0 d= 0 e= 0 f= 0 MgI2 charge= 0 ion size= 0.0 A mole wt.= 278.1140 g 2 species in reaction 1.000 Mg++ 2.000 I- * log10 K(298 K) = -0.0300 a= -0.03 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(CO3) charge= 0 ion size= 0.0 A mole wt.= 114.9460 g 2 species in reaction 1.000 Mn++ 1.000 CO3-- * log10 K(298 K) = -6.5000 a= -6.5 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 115.9539 g 3 species in reaction 1.000 Mn++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.6100 a= -11.61 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(HPO4) charge= 0 ion size= 0.0 A mole wt.= 150.9157 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 3.2600 a= 3.26 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(HPO4)2-- charge= -2 ion size= 0.0 A mole wt.= 246.8934 g 3 species in reaction 1.000 Mn++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 9.1200 a= 9.12 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(IO3)+ charge= 1 ion size= 0.0 A mole wt.= 229.8395 g 2 species in reaction 1.000 Mn++ 1.000 IO3- * log10 K(298 K) = -0.8400 a= -0.84 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(IO3)2 charge= 0 ion size= 0.0 A mole wt.= 404.7410 g 2 species in reaction 1.000 Mn++ 2.000 IO3- * log10 K(298 K) = -0.1300 a= -0.13 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 71.9684 g 2 species in reaction 1.000 Mn++ 1.000 NH3 * log10 K(298 K) = -0.7000 a= -0.7 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(NH3)2++ charge= 2 ion size= 0.0 A mole wt.= 88.9988 g 2 species in reaction 1.000 Mn++ 2.000 NH3 * log10 K(298 K) = -1.2000 a= -1.2 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 116.9417 g 2 species in reaction 1.000 Mn++ 1.000 NO3- * log10 K(298 K) = -0.1600 a= -0.16 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(NO3)2 charge= 0 ion size= 0.0 A mole wt.= 178.9454 g 2 species in reaction 1.000 Mn++ 2.000 NO3- * log10 K(298 K) = -0.5000 a= -0.5 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(OH)+ charge= 1 ion size= 0.0 A mole wt.= 71.9449 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 10.5900 a= 10.59 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(OH)2 charge= 0 ion size= 0.0 A mole wt.= 88.9518 g 3 species in reaction 1.000 Mn++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 22.2000 a= 22.2 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(OH)3- charge= -1 ion size= 0.0 A mole wt.= 105.9587 g 3 species in reaction 1.000 Mn++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 34.8000 a= 34.8 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 122.9656 g 3 species in reaction 1.000 Mn++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 48.3000 a= 48.3 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(Pyrophos)-- formula= MnP2O7-- charge= -2 ion size= 0.0 A mole wt.= 228.8786 g 2 species in reaction 1.000 Mn++ 1.000 Pyrophos---- * log10 K(298 K) = -6.0000 a= -6 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(S2O3) charge= 0 ion size= 0.0 A mole wt.= 167.0670 g 2 species in reaction 1.000 Mn++ 1.000 S2O3-- * log10 K(298 K) = -1.9000 a= -1.9 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(Scn)+ formula= Mn(SCN)+ charge= 1 ion size= 0.0 A mole wt.= 113.0217 g 2 species in reaction 1.000 Mn++ 1.000 Scn- * log10 K(298 K) = -1.4000 a= -1.4 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(SeO4) charge= 0 ion size= 0.0 A mole wt.= 197.8940 g 2 species in reaction 1.000 Mn++ 1.000 SeO4-- * log10 K(298 K) = -2.4300 a= -2.430000017 b= 0 c= 0 d= -81.4844 e= 0 f= 0 Mn(SO4) charge= 0 ion size= 0.0 A mole wt.= 151.0000 g 2 species in reaction 1.000 Mn++ 1.000 SO4-- * log10 K(298 K) = -2.2500 a= -2.250000374 b= 0 c= 0 d= 736.493 e= 0 f= 0 Mn+++ charge= 3 ion size= 0.0 A mole wt.= 54.9380 g 2 species in reaction 1.000 Mn++ -1.000 e- * log10 K(298 K) = 25.5100 a= 25.51 b= 0 c= 0 d= 0 e= 0 f= 0 Mn2(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 126.8829 g 3 species in reaction 2.000 Mn++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 10.1000 a= 10.1 b= 0 c= 0 d= 0 e= 0 f= 0 Mn2(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 160.8967 g 3 species in reaction 2.000 Mn++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 24.9000 a= 24.9 b= 0 c= 0 d= 0 e= 0 f= 0 MnBr+ charge= 1 ion size= 0.0 A mole wt.= 134.8420 g 2 species in reaction 1.000 Mn++ 1.000 Br- * log10 K(298 K) = -0.1300 a= -0.13 b= 0 c= 0 d= 0 e= 0 f= 0 MnCl+ charge= 1 ion size= 0.0 A mole wt.= 90.3907 g 2 species in reaction 1.000 Mn++ 1.000 Cl- * log10 K(298 K) = -0.2700 a= -0.2699995271 b= 0 c= 0 d= 967.157 e= 0 f= 0 MnCl2 charge= 0 ion size= 0.0 A mole wt.= 125.8434 g 2 species in reaction 1.000 Mn++ 2.000 Cl- * log10 K(298 K) = -0.2500 a= -0.25 b= 0 c= 0 d= 0 e= 0 f= 0 MnCl3- charge= -1 ion size= 0.0 A mole wt.= 161.2961 g 2 species in reaction 1.000 Mn++ 3.000 Cl- * log10 K(298 K) = 0.3100 a= 0.31 b= 0 c= 0 d= 0 e= 0 f= 0 MnF+ charge= 1 ion size= 0.0 A mole wt.= 73.9364 g 2 species in reaction 1.000 Mn++ 1.000 F- * log10 K(298 K) = -0.8500 a= -0.85 b= 0 c= 0 d= 0 e= 0 f= 0 MnF2 charge= 0 ion size= 0.0 A mole wt.= 92.9348 g 2 species in reaction 1.000 Mn++ 2.000 F- * log10 K(298 K) = -9.0400 a= -9.04 b= 0 c= 0 d= 0 e= 0 f= 0 MnF3- charge= -1 ion size= 0.0 A mole wt.= 111.9332 g 2 species in reaction 1.000 Mn++ 3.000 F- * log10 K(298 K) = -11.6400 a= -11.64 b= 0 c= 0 d= 0 e= 0 f= 0 MnF4-- charge= -2 ion size= 0.0 A mole wt.= 130.9316 g 2 species in reaction 1.000 Mn++ 4.000 F- * log10 K(298 K) = -13.4000 a= -13.4 b= 0 c= 0 d= 0 e= 0 f= 0 MnF5--- charge= -3 ion size= 0.0 A mole wt.= 149.9300 g 2 species in reaction 1.000 Mn++ 5.000 F- * log10 K(298 K) = -14.7000 a= -14.7 b= 0 c= 0 d= 0 e= 0 f= 0 MnF6---- charge= -4 ion size= 0.0 A mole wt.= 168.9284 g 2 species in reaction 1.000 Mn++ 6.000 F- * log10 K(298 K) = -15.5000 a= -15.5 b= 0 c= 0 d= 0 e= 0 f= 0 MnI+ charge= 1 ion size= 0.0 A mole wt.= 181.8425 g 2 species in reaction 1.000 Mn++ 1.000 I- * log10 K(298 K) = -0.2300 a= -0.23 b= 0 c= 0 d= 0 e= 0 f= 0 MnO4- charge= -1 ion size= 0.0 A mole wt.= 118.9340 g 4 species in reaction 1.000 Mn++ -8.000 H+ -5.000 e- 4.000 H2O * log10 K(298 K) = 127.8101 a= 127.8100836 b= 0 c= 0 d= 42973.1 e= 0 f= 0 MnO4-- charge= -2 ion size= 0.0 A mole wt.= 118.9340 g 4 species in reaction 1.000 Mn++ -8.000 H+ -4.000 e- 4.000 H2O * log10 K(298 K) = 118.4300 a= 118.4300299 b= 0 c= 0 d= 37159.8 e= 0 f= 0 MnO4--- charge= -3 ion size= 0.0 A mole wt.= 118.9340 g 4 species in reaction 1.000 Mn++ -8.000 H+ -3.000 e- 4.000 H2O * log10 K(298 K) = 113.0000 a= 113 b= 0 c= 0 d= 0 e= 0 f= 0 Mo+++ charge= 3 ion size= 0.0 A mole wt.= 95.9400 g 4 species in reaction 8.000 H+ 3.000 e- 1.000 MoO4-- -4.000 H2O * log10 K(298 K) = -21.7600 a= -21.76 b= 0 c= 0 d= 0 e= 0 f= 0 Mo19O59---- charge= -4 ion size= 0.0 A mole wt.= 2766.8010 g 3 species in reaction 34.000 H+ 19.000 MoO4-- -17.000 H2O * log10 K(298 K) = -196.3000 a= -196.3 b= 0 c= 0 d= 0 e= 0 f= 0 Mo2O5(OH)+ charge= 1 ion size= 0.0 A mole wt.= 288.8819 g 3 species in reaction 5.000 H+ 2.000 MoO4-- -2.000 H2O * log10 K(298 K) = -19.0000 a= -19 b= 0 c= 0 d= 0 e= 0 f= 0 Mo7O21(OH)3--- charge= -3 ion size= 0.0 A mole wt.= 1058.5797 g 3 species in reaction 11.000 H+ 7.000 MoO4-- -4.000 H2O * log10 K(298 K) = -66.4799 a= -66.47990748 b= 0 c= 0 d= -11626.6 e= 0 f= 0 Mo7O22(OH)2---- charge= -4 ion size= 0.0 A mole wt.= 1057.5718 g 3 species in reaction 10.000 H+ 7.000 MoO4-- -4.000 H2O * log10 K(298 K) = -62.7100 a= -62.70999592 b= 0 c= 0 d= -11495.5 e= 0 f= 0 Mo7O23(OH)----- charge= -5 ion size= 0.0 A mole wt.= 1056.5639 g 3 species in reaction 9.000 H+ 7.000 MoO4-- -4.000 H2O * log10 K(298 K) = -57.2099 a= -57.209878 b= 0 c= 0 d= -11670.3 e= 0 f= 0 Mo7O24------ charge= -6 ion size= 0.0 A mole wt.= 1055.5560 g 3 species in reaction 8.000 H+ 7.000 MoO4-- -4.000 H2O * log10 K(298 K) = -50.3499 a= -50.34989014 b= 0 c= 0 d= -12238.5 e= 0 f= 0 Na(CO3)- charge= -1 ion size= 0.0 A mole wt.= 82.9978 g 2 species in reaction 1.000 Na+ 1.000 CO3-- * log10 K(298 K) = -1.2700 a= -1.270015658 b= 0 c= 0 d= 1947.21 e= 0 f= 0 Na(Edta)--- formula= Na(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 311.2000 g 2 species in reaction 1.000 Na+ 1.000 Edta---- * log10 K(298 K) = -2.8000 a= -2.79999807 b= 0 c= 0 d= -208.934 e= 0 f= 0 Na(HCO3) charge= 0 ion size= 0.0 A mole wt.= 84.0057 g 3 species in reaction 1.000 Na+ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -10.0800 a= -10.08000977 b= 0 c= 0 d= -1364.71 e= 0 f= 0 Na(HNta)- formula= Na(HN(CH2COO)3)- charge= -1 ion size= 0.0 A mole wt.= 212.1118 g 3 species in reaction 1.000 Na+ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -10.3200 a= -10.32 b= 0 c= 0 d= 0 e= 0 f= 0 Na(HPO4)- charge= -1 ion size= 0.0 A mole wt.= 118.9675 g 3 species in reaction 1.000 Na+ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 6.3400 a= 6.33999481 b= 0 c= 0 d= 1824.83 e= 0 f= 0 Na(IO3) charge= 0 ion size= 0.0 A mole wt.= 197.8913 g 2 species in reaction 1.000 Na+ 1.000 IO3- * log10 K(298 K) = -0.0600 a= -0.06 b= 0 c= 0 d= 0 e= 0 f= 0 Na(Nta)-- formula= NaN(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 211.1039 g 2 species in reaction 1.000 Na+ 1.000 Nta--- * log10 K(298 K) = -1.8800 a= -1.88 b= 0 c= 0 d= 0 e= 0 f= 0 Na(S2O3)- charge= -1 ion size= 0.0 A mole wt.= 135.1188 g 2 species in reaction 1.000 Na+ 1.000 S2O3-- * log10 K(298 K) = -0.6100 a= -0.6099965571 b= 0 c= 0 d= 243.199 e= 0 f= 0 Na2(Pyrophos)-- formula= Na2P2O7-- charge= -2 ion size= 0.0 A mole wt.= 219.9202 g 2 species in reaction 2.000 Na+ 1.000 Pyrophos---- * log10 K(298 K) = -2.2900 a= -2.290004635 b= 0 c= 0 d= 305.984 e= 0 f= 0 NaAl(OH)4 charge= 0 ion size= 0.0 A mole wt.= 117.9989 g 4 species in reaction 1.000 Na+ 1.000 Al+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 23.6300 a= 23.6299861 b= 0 c= 0 d= 9942.55 e= 0 f= 0 NaB(OH)4 charge= 0 ion size= 0.0 A mole wt.= 101.8284 g 2 species in reaction 1.000 Na+ 1.000 B(OH)4- * log10 K(298 K) = 0.1000 a= 0.09999951065 b= 0 c= 0 d= 64.0383 e= 0 f= 0 NaF charge= 0 ion size= 0.0 A mole wt.= 41.9882 g 2 species in reaction 1.000 Na+ 1.000 F- * log10 K(298 K) = 0.4500 a= 0.4499960808 b= 0 c= 0 d= -655.636 e= 0 f= 0 NaH2PO4 charge= 0 ion size= 0.0 A mole wt.= 119.9754 g 2 species in reaction 1.000 Na+ 1.000 H2(PO4)- * log10 K(298 K) = -0.4100 a= -0.41 b= 0 c= 0 d= 0 e= 0 f= 0 NaI charge= 0 ion size= 0.0 A mole wt.= 149.8943 g 2 species in reaction 1.000 Na+ 1.000 I- * log10 K(298 K) = 1.5200 a= 1.520000717 b= 0 c= 0 d= 378.798 e= 0 f= 0 NaPO4-- charge= -2 ion size= 0.0 A mole wt.= 117.9596 g 3 species in reaction 1.000 Na+ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 18.0700 a= 18.07 b= 0 c= 0 d= 0 e= 0 f= 0 Nb(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 143.9271 g 3 species in reaction 3.000 H+ 1.000 Nb(OH)6- -3.000 H2O * log10 K(298 K) = -7.5000 a= -7.499995328 b= 0 c= 0 d= -534.349 e= 0 f= 0 Nb(OH)4+ charge= 1 ion size= 0.0 A mole wt.= 160.9340 g 3 species in reaction 2.000 H+ 1.000 Nb(OH)6- -2.000 H2O * log10 K(298 K) = -6.6400 a= -6.640012186 b= 0 c= 0 d= -1846.46 e= 0 f= 0 Nb(OH)5 charge= 0 ion size= 0.0 A mole wt.= 177.9409 g 3 species in reaction 1.000 H+ 1.000 Nb(OH)6- -1.000 H2O * log10 K(298 K) = -5.0800 a= -5.080002573 b= 0 c= 0 d= -699.407 e= 0 f= 0 Nb(OH)7-- charge= -2 ion size= 0.0 A mole wt.= 211.9547 g 3 species in reaction -1.000 H+ 1.000 Nb(OH)6- 1.000 H2O * log10 K(298 K) = 8.8800 a= 8.88000384 b= 0 c= 0 d= 531.215 e= 0 f= 0 NbO2(H3Cit)+ formula= NbO2(COOHCH2COHCOOHCH2COOH)+ charge= 1 ion size= 0.0 A mole wt.= 317.0266 g 4 species in reaction 5.000 H+ 1.000 Nb(OH)6- 1.000 Cit--- -4.000 H2O * log10 K(298 K) = -25.6400 a= -25.64 b= 0 c= 0 d= 0 e= 0 f= 0 NbO2(HOx) formula= NbO2H(COO)2 charge= 0 ion size= 0.0 A mole wt.= 213.9303 g 4 species in reaction 3.000 H+ 1.000 Nb(OH)6- 1.000 Ox-- -4.000 H2O * log10 K(298 K) = -13.7000 a= -13.7 b= 0 c= 0 d= 0 e= 0 f= 0 NbO2(HOx)2- formula= NbO2(H(COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 302.9562 g 4 species in reaction 4.000 H+ 1.000 Nb(OH)6- 2.000 Ox-- -4.000 H2O * log10 K(298 K) = -20.9600 a= -20.96 b= 0 c= 0 d= 0 e= 0 f= 0 NbO2(Ox)- formula= NbO2(COO)2- charge= -1 ion size= 0.0 A mole wt.= 212.9224 g 4 species in reaction 2.000 H+ 1.000 Nb(OH)6- 1.000 Ox-- -4.000 H2O * log10 K(298 K) = -10.9400 a= -10.94 b= 0 c= 0 d= 0 e= 0 f= 0 NH4+ charge= 1 ion size= 0.0 A mole wt.= 18.0383 g 2 species in reaction 1.000 H+ 1.000 NH3 * log10 K(298 K) = -9.2400 a= -9.240012616 b= 0 c= 0 d= -2720.85 e= 0 f= 0 Ni(Acetate)+ formula= Ni(CH3COO)+ charge= 1 ion size= 0.0 A mole wt.= 117.7337 g 2 species in reaction 1.000 Ni++ 1.000 Acetate- * log10 K(298 K) = -1.3400 a= -1.339999293 b= 0 c= 0 d= -457.618 e= 0 f= 0 Ni(Cit)- formula= NiCOOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 247.7885 g 2 species in reaction 1.000 Ni++ 1.000 Cit--- * log10 K(298 K) = -6.7600 a= -6.76 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Cit)2---- formula= Ni(COOCH2COHCOOCH2COO)2---- charge= -4 ion size= 0.0 A mole wt.= 436.8870 g 2 species in reaction 1.000 Ni++ 2.000 Cit--- * log10 K(298 K) = -8.5000 a= -8.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Cn)4-- formula= Ni(CN)4-- charge= -2 ion size= 0.0 A mole wt.= 162.7608 g 2 species in reaction 1.000 Ni++ 4.000 Cn- * log10 K(298 K) = -30.2000 a= -30.19998952 b= 0 c= 0 d= -9438.6 e= 0 f= 0 Ni(Cn)5--- formula= Ni(CN)5--- charge= -3 ion size= 0.0 A mole wt.= 188.7785 g 2 species in reaction 1.000 Ni++ 5.000 Cn- * log10 K(298 K) = -28.5000 a= -28.49999187 b= 0 c= 0 d= -9981.83 e= 0 f= 0 Ni(CO3) charge= 0 ion size= 0.0 A mole wt.= 118.6980 g 2 species in reaction 1.000 Ni++ 1.000 CO3-- * log10 K(298 K) = -4.2000 a= -4.199999076 b= 0 c= 0 d= 185.22 e= 0 f= 0 Ni(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 178.7060 g 2 species in reaction 1.000 Ni++ 2.000 CO3-- * log10 K(298 K) = -6.2000 a= -6.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Edta)-- formula= Ni(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 346.9002 g 2 species in reaction 1.000 Ni++ 1.000 Edta---- * log10 K(298 K) = -20.5400 a= -20.54003061 b= 0 c= 0 d= -1363.3 e= 0 f= 0 Ni(H2Cit)+ formula= Ni(H2COOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 249.8043 g 3 species in reaction 1.000 Ni++ 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -13.1900 a= -13.19 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(HCit) formula= Ni(HCOOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 248.7964 g 3 species in reaction 1.000 Ni++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -10.5200 a= -10.52 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 119.7059 g 3 species in reaction 1.000 Ni++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.7300 a= -11.73 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(HEdta)- formula= NiH(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 347.9081 g 3 species in reaction 1.000 Ni++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -24.2000 a= -24.2 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(HIsa)+ formula= Ni(C6H11O6)+ charge= 1 ion size= 0.0 A mole wt.= 237.8369 g 2 species in reaction 1.000 Ni++ 1.000 HIsa- * log10 K(298 K) = -2.8000 a= -2.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(HPO4) charge= 0 ion size= 0.0 A mole wt.= 154.6677 g 3 species in reaction 1.000 Ni++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.1600 a= 4.16 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(HS)2 charge= 0 ion size= 0.0 A mole wt.= 124.8378 g 2 species in reaction 1.000 Ni++ 2.000 HS- * log10 K(298 K) = -11.1000 a= -11.1 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Malonate) formula= NiCH2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 160.7348 g 2 species in reaction 1.000 Ni++ 1.000 Malonate-- * log10 K(298 K) = -4.3900 a= -4.39 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Malonate)2-- formula= Ni(CH2(COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 262.7796 g 2 species in reaction 1.000 Ni++ 2.000 Malonate-- * log10 K(298 K) = -8.1500 a= -8.15 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 75.7204 g 2 species in reaction 1.000 Ni++ 1.000 NH3 * log10 K(298 K) = -2.6100 a= -2.61 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(NH3)2++ charge= 2 ion size= 0.0 A mole wt.= 92.7508 g 2 species in reaction 1.000 Ni++ 2.000 NH3 * log10 K(298 K) = -4.7600 a= -4.76 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(NH3)3++ charge= 2 ion size= 0.0 A mole wt.= 109.7812 g 2 species in reaction 1.000 Ni++ 3.000 NH3 * log10 K(298 K) = -6.7900 a= -6.79 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(NH3)4++ charge= 2 ion size= 0.0 A mole wt.= 126.8116 g 2 species in reaction 1.000 Ni++ 4.000 NH3 * log10 K(298 K) = -8.3400 a= -8.34 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 120.6937 g 2 species in reaction 1.000 Ni++ 1.000 NO3- * log10 K(298 K) = -0.5000 a= -0.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(NO3)2 charge= 0 ion size= 0.0 A mole wt.= 182.6974 g 2 species in reaction 1.000 Ni++ 2.000 NO3- * log10 K(298 K) = 0.6000 a= 0.6 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Nta)- formula= NiN(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 246.8041 g 2 species in reaction 1.000 Ni++ 1.000 Nta--- * log10 K(298 K) = -12.7500 a= -12.75 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Nta)2---- formula= Ni(N(CH2COO)3)2---- charge= -4 ion size= 0.0 A mole wt.= 434.9182 g 2 species in reaction 1.000 Ni++ 2.000 Nta--- * log10 K(298 K) = -16.9500 a= -16.95 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(OH)(Nta)-- formula= Ni(OH)N(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 263.8110 g 4 species in reaction 1.000 Ni++ -1.000 H+ 1.000 Nta--- 1.000 H2O * log10 K(298 K) = -1.4700 a= -1.47 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(OH)+ charge= 1 ion size= 0.0 A mole wt.= 75.6969 g 3 species in reaction 1.000 Ni++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 9.5400 a= 9.540014364 b= 0 c= 0 d= 2810.17 e= 0 f= 0 Ni(OH)2 charge= 0 ion size= 0.0 A mole wt.= 92.7038 g 3 species in reaction 1.000 Ni++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 18.0000 a= 18 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(OH)2(HPO4)-- charge= -2 ion size= 0.0 A mole wt.= 188.6815 g 4 species in reaction 1.000 Ni++ -3.000 H+ 1.000 H2(PO4)- 2.000 H2O * log10 K(298 K) = 23.2400 a= 23.24 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(OH)3(HIsa)-- formula= Ni(OH)3(C6H11O6)-- charge= -2 ion size= 0.0 A mole wt.= 288.8576 g 4 species in reaction 1.000 Ni++ -3.000 H+ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = 26.5000 a= 26.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(OH)3- charge= -1 ion size= 0.0 A mole wt.= 109.7107 g 3 species in reaction 1.000 Ni++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 29.3800 a= 29.38000538 b= 0 c= 0 d= 6330.71 e= 0 f= 0 Ni(Ox) formula= Ni(COO)2 charge= 0 ion size= 0.0 A mole wt.= 146.7080 g 2 species in reaction 1.000 Ni++ 1.000 Ox-- * log10 K(298 K) = -5.1900 a= -5.19 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Ox)2-- formula= Ni((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 234.7260 g 2 species in reaction 1.000 Ni++ 2.000 Ox-- * log10 K(298 K) = -7.6400 a= -7.640000084 b= 0 c= 0 d= -407.422 e= 0 f= 0 Ni(Phthalat) formula= NiC6H4(COO)2 charge= 0 ion size= 0.0 A mole wt.= 222.8056 g 2 species in reaction 1.000 Ni++ 1.000 Phthalat-- * log10 K(298 K) = -3.0000 a= -3 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Pyrophos)-- formula= NiP2O7-- charge= -2 ion size= 0.0 A mole wt.= 232.6306 g 2 species in reaction 1.000 Ni++ 1.000 Pyrophos---- * log10 K(298 K) = -8.7300 a= -8.73 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(S2O3) charge= 0 ion size= 0.0 A mole wt.= 170.8190 g 2 species in reaction 1.000 Ni++ 1.000 S2O3-- * log10 K(298 K) = -2.0600 a= -2.06 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(Scn)+ formula= Ni(SCN)+ charge= 1 ion size= 0.0 A mole wt.= 116.7737 g 2 species in reaction 1.000 Ni++ 1.000 Scn- * log10 K(298 K) = -1.8100 a= -1.810000154 b= 0 c= 0 d= -616.356 e= 0 f= 0 Ni(Scn)2 formula= Ni(SCN)2 charge= 0 ion size= 0.0 A mole wt.= 174.8574 g 2 species in reaction 1.000 Ni++ 2.000 Scn- * log10 K(298 K) = -2.6900 a= -2.689983627 b= 0 c= 0 d= -1096.9 e= 0 f= 0 Ni(Scn)3- formula= Ni(SCN)3- charge= -1 ion size= 0.0 A mole wt.= 232.9411 g 2 species in reaction 1.000 Ni++ 3.000 Scn- * log10 K(298 K) = -3.0200 a= -3.019993475 b= 0 c= 0 d= -1514.77 e= 0 f= 0 Ni(SeCn)+ formula= Ni(SeCN)+ charge= 1 ion size= 0.0 A mole wt.= 163.6677 g 5 species in reaction 1.000 Ni++ -1.000 H+ -2.000 e- 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -14.8000 a= -14.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(SeCn)2 formula= Ni(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 268.6454 g 5 species in reaction 1.000 Ni++ -2.000 H+ -4.000 e- 2.000 Cn- 2.000 HSe- * log10 K(298 K) = -28.2900 a= -28.29 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(SeO4) charge= 0 ion size= 0.0 A mole wt.= 201.6460 g 2 species in reaction 1.000 Ni++ 1.000 SeO4-- * log10 K(298 K) = -2.6700 a= -2.670000639 b= 0 c= 0 d= -35.5188 e= 0 f= 0 Ni(SO4) charge= 0 ion size= 0.0 A mole wt.= 154.7520 g 2 species in reaction 1.000 Ni++ 1.000 SO4-- * log10 K(298 K) = -2.3500 a= -2.350001873 b= 0 c= 0 d= 295.642 e= 0 f= 0 Ni(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 250.8140 g 2 species in reaction 1.000 Ni++ 2.000 SO4-- * log10 K(298 K) = -3.0100 a= -3.01 b= 0 c= 0 d= 0 e= 0 f= 0 Ni2(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 134.3869 g 3 species in reaction 2.000 Ni++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 10.6000 a= 10.60000148 b= 0 c= 0 d= 2397.52 e= 0 f= 0 Ni4(OH)4++++ charge= 4 ion size= 0.0 A mole wt.= 302.7876 g 3 species in reaction 4.000 Ni++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 27.5200 a= 27.52001362 b= 0 c= 0 d= 9924.38 e= 0 f= 0 NiCl+ charge= 1 ion size= 0.0 A mole wt.= 94.1427 g 2 species in reaction 1.000 Ni++ 1.000 Cl- * log10 K(298 K) = -0.0800 a= -0.08 b= 0 c= 0 d= 0 e= 0 f= 0 NiF+ charge= 1 ion size= 0.0 A mole wt.= 77.6884 g 2 species in reaction 1.000 Ni++ 1.000 F- * log10 K(298 K) = -1.4300 a= -1.430003319 b= 0 c= 0 d= 496.219 e= 0 f= 0 NiHAsO4 charge= 0 ion size= 0.0 A mole wt.= 198.6155 g 3 species in reaction 1.000 Ni++ 1.000 H+ 1.000 AsO4--- * log10 K(298 K) = -14.5000 a= -14.5 b= 0 c= 0 d= 0 e= 0 f= 0 NiHPyrophos- formula= NiHP2O7- charge= -1 ion size= 0.0 A mole wt.= 233.6385 g 3 species in reaction 1.000 Ni++ 1.000 H+ 1.000 Pyrophos---- * log10 K(298 K) = -14.5400 a= -14.54 b= 0 c= 0 d= 0 e= 0 f= 0 NiHS+ charge= 1 ion size= 0.0 A mole wt.= 91.7639 g 2 species in reaction 1.000 Ni++ 1.000 HS- * log10 K(298 K) = -5.5000 a= -5.5 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Acetate)+++ formula= Np(CH3COO)+++ charge= 3 ion size= 0.0 A mole wt.= 296.0917 g 2 species in reaction 1.000 Np++++ 1.000 Acetate- * log10 K(298 K) = -5.8300 a= -5.83 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Acetate)2++ formula= Np(CH3COO)2++ charge= 2 ion size= 0.0 A mole wt.= 355.1354 g 2 species in reaction 1.000 Np++++ 2.000 Acetate- * log10 K(298 K) = -10.0000 a= -10 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)(OH)3- charge= -1 ion size= 0.0 A mole wt.= 348.0767 g 4 species in reaction 1.000 Np++++ -3.000 H+ 1.000 CO3-- 3.000 H2O * log10 K(298 K) = -3.8200 a= -3.82 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)+ charge= 1 ion size= 0.0 A mole wt.= 297.0560 g 2 species in reaction 1.000 Np+++ 1.000 CO3-- * log10 K(298 K) = -7.6700 a= -7.670034127 b= 0 c= 0 d= 8167.66 e= 0 f= 0 Np(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 357.0640 g 2 species in reaction 1.000 Np+++ 2.000 CO3-- * log10 K(298 K) = -12.6000 a= -12.6 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 417.0720 g 2 species in reaction 1.000 Np+++ 3.000 CO3-- * log10 K(298 K) = -15.6600 a= -15.66 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 477.0800 g 2 species in reaction 1.000 Np++++ 4.000 CO3-- * log10 K(298 K) = -36.6800 a= -36.68 b= 0 c= 0 d= 0 e= 0 f= 0 Np(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 537.0880 g 2 species in reaction 1.000 Np++++ 5.000 CO3-- * log10 K(298 K) = -35.6100 a= -35.60999587 b= 0 c= 0 d= -114.548 e= 0 f= 0 Np(Edta) formula= Np(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 525.2582 g 2 species in reaction 1.000 Np++++ 1.000 Edta---- * log10 K(298 K) = -31.2000 a= -31.2 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Edta)- formula= Np(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 525.2582 g 2 species in reaction 1.000 Np+++ 1.000 Edta---- * log10 K(298 K) = -19.9000 a= -19.9 b= 0 c= 0 d= 0 e= 0 f= 0 Np(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 429.0034 g 3 species in reaction 1.000 Np+++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 5.3800 a= 5.38 b= 0 c= 0 d= 0 e= 0 f= 0 Np(NO3)+++ charge= 3 ion size= 0.0 A mole wt.= 299.0517 g 2 species in reaction 1.000 Np++++ 1.000 NO3- * log10 K(298 K) = -1.9000 a= -1.9 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Nta) formula= NpN(CH2COO)3 charge= 0 ion size= 0.0 A mole wt.= 425.1621 g 2 species in reaction 1.000 Np+++ 1.000 Nta--- * log10 K(298 K) = -13.0000 a= -13 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Nta)+ formula= NpN(CH2COO)3+ charge= 1 ion size= 0.0 A mole wt.= 425.1621 g 2 species in reaction 1.000 Np++++ 1.000 Nta--- * log10 K(298 K) = -20.7000 a= -20.7 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Nta)2-- formula= Np(N(CH2COO)3)2-- charge= -2 ion size= 0.0 A mole wt.= 613.2762 g 2 species in reaction 1.000 Np++++ 2.000 Nta--- * log10 K(298 K) = -36.3000 a= -36.3 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)++ charge= 2 ion size= 0.0 A mole wt.= 254.0549 g 3 species in reaction 1.000 Np+++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 6.8000 a= 6.799993196 b= 0 c= 0 d= 4026.63 e= 0 f= 0 Np(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 254.0549 g 3 species in reaction 1.000 Np++++ -1.000 H+ 1.000 H2O * log10 K(298 K) = -0.5500 a= -0.5499985477 b= 0 c= 0 d= 1963.67 e= 0 f= 0 Np(OH)2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 391.0778 g 4 species in reaction 1.000 Np++++ -2.000 H+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -15.1700 a= -15.17 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 271.0618 g 3 species in reaction 1.000 Np+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 17.0000 a= 16.99999163 b= 0 c= 0 d= 8123.78 e= 0 f= 0 Np(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 271.0618 g 3 species in reaction 1.000 Np++++ -2.000 H+ 2.000 H2O * log10 K(298 K) = -0.3500 a= -0.3500044625 b= 0 c= 0 d= 2817.06 e= 0 f= 0 Np(OH)3 charge= 0 ion size= 0.0 A mole wt.= 288.0687 g 3 species in reaction 1.000 Np+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 26.9999 a= 26.99990364 b= 0 c= 0 d= 12317.8 e= 0 f= 0 Np(OH)3(HGlu) formula= Np(OH)3HOCH2(CHOH)4COO charge= 0 ion size= 0.0 A mole wt.= 483.2146 g 4 species in reaction 1.000 Np++++ -3.000 H+ 1.000 HGlu- 3.000 H2O * log10 K(298 K) = -3.2700 a= -3.27 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)3(HIsa) formula= Np(OH)3(C6H11O6) charge= 0 ion size= 0.0 A mole wt.= 467.2156 g 4 species in reaction 1.000 Np++++ -3.000 H+ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = -3.2700 a= -3.27 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)3(HIsa)2- formula= Np(OH)3(C6H11O6)2- charge= -1 ion size= 0.0 A mole wt.= 646.3625 g 4 species in reaction 1.000 Np++++ -3.000 H+ 2.000 HIsa- 3.000 H2O * log10 K(298 K) = -5.3800 a= -5.38 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 288.0687 g 3 species in reaction 1.000 Np++++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 2.8000 a= 2.799972531 b= 0 c= 0 d= 3882.68 e= 0 f= 0 Np(OH)4 charge= 0 ion size= 0.0 A mole wt.= 305.0756 g 3 species in reaction 1.000 Np++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 8.3000 a= 8.300000329 b= 0 c= 0 d= 5267.44 e= 0 f= 0 Np(OH)4(CO3)-- charge= -2 ion size= 0.0 A mole wt.= 365.0836 g 4 species in reaction 1.000 Np++++ -4.000 H+ 1.000 CO3-- 4.000 H2O * log10 K(298 K) = 6.8300 a= 6.83 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)4(HGlu)- formula= Np(OH)4HOCH2(CHOH)4COO- charge= -1 ion size= 0.0 A mole wt.= 500.2215 g 4 species in reaction 1.000 Np++++ -4.000 H+ 1.000 HGlu- 4.000 H2O * log10 K(298 K) = 3.7000 a= 3.7 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)4(HIsa)- formula= Np(OH)4(C6H11O6)- charge= -1 ion size= 0.0 A mole wt.= 484.2225 g 4 species in reaction 1.000 Np++++ -4.000 H+ 1.000 HIsa- 4.000 H2O * log10 K(298 K) = 4.0600 a= 4.06 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)4(HIsa)2-- formula= Np(OH)4(C6H11O6)2-- charge= -2 ion size= 0.0 A mole wt.= 663.3694 g 4 species in reaction 1.000 Np++++ -4.000 H+ 2.000 HIsa- 4.000 H2O * log10 K(298 K) = 2.2000 a= 2.2 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Ox)++ formula= Np(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 325.0660 g 2 species in reaction 1.000 Np++++ 1.000 Ox-- * log10 K(298 K) = -11.1600 a= -11.16 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Ox)2 formula= Np((COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 413.0840 g 2 species in reaction 1.000 Np++++ 2.000 Ox-- * log10 K(298 K) = -19.9400 a= -19.94 b= 0 c= 0 d= 0 e= 0 f= 0 Np(Ox)3-- formula= Np((COO)2)3-- charge= -2 ion size= 0.0 A mole wt.= 501.1020 g 2 species in reaction 1.000 Np++++ 3.000 Ox-- * log10 K(298 K) = -25.1900 a= -25.19 b= 0 c= 0 d= 0 e= 0 f= 0 Np(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 426.9876 g 3 species in reaction 1.000 Np+++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 19.5700 a= 19.57 b= 0 c= 0 d= 0 e= 0 f= 0 Np(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 333.1100 g 2 species in reaction 1.000 Np+++ 1.000 SO4-- * log10 K(298 K) = -3.8600 a= -3.859996919 b= 0 c= 0 d= 934.406 e= 0 f= 0 Np(SO4)++ charge= 2 ion size= 0.0 A mole wt.= 333.1100 g 2 species in reaction 1.000 Np++++ 1.000 SO4-- * log10 K(298 K) = -6.8500 a= -6.849962284 b= 0 c= 0 d= 1558.65 e= 0 f= 0 Np(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 429.1720 g 2 species in reaction 1.000 Np++++ 2.000 SO4-- * log10 K(298 K) = -11.0500 a= -11.0499702 b= 0 c= 0 d= 2892.69 e= 0 f= 0 Np(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 429.1720 g 2 species in reaction 1.000 Np+++ 2.000 SO4-- * log10 K(298 K) = -5.5600 a= -5.56 b= 0 c= 0 d= 0 e= 0 f= 0 NpBr+++ charge= 3 ion size= 0.0 A mole wt.= 316.9520 g 2 species in reaction 1.000 Np++++ 1.000 Br- * log10 K(298 K) = -1.5500 a= -1.55 b= 0 c= 0 d= 0 e= 0 f= 0 NpCl+++ charge= 3 ion size= 0.0 A mole wt.= 272.5007 g 2 species in reaction 1.000 Np++++ 1.000 Cl- * log10 K(298 K) = -1.5000 a= -1.499992921 b= 0 c= 0 d= 1231.46 e= 0 f= 0 NpF+++ charge= 3 ion size= 0.0 A mole wt.= 256.0464 g 2 species in reaction 1.000 Np++++ 1.000 F- * log10 K(298 K) = -8.9600 a= -8.960001806 b= 0 c= 0 d= 78.3503 e= 0 f= 0 NpF2++ charge= 2 ion size= 0.0 A mole wt.= 275.0448 g 2 species in reaction 1.000 Np++++ 2.000 F- * log10 K(298 K) = -15.7000 a= -15.70000488 b= 0 c= 0 d= 800.74 e= 0 f= 0 NpF3+ charge= 1 ion size= 0.0 A mole wt.= 294.0432 g 2 species in reaction 1.000 Np++++ 3.000 F- * log10 K(298 K) = -20.0500 a= -20.05 b= 0 c= 0 d= 0 e= 0 f= 0 NpF4 charge= 0 ion size= 0.0 A mole wt.= 313.0416 g 2 species in reaction 1.000 Np++++ 4.000 F- * log10 K(298 K) = -25.9500 a= -25.95 b= 0 c= 0 d= 0 e= 0 f= 0 NpHPO4+ charge= 1 ion size= 0.0 A mole wt.= 333.0257 g 3 species in reaction 1.000 Np+++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 1.7800 a= 1.78 b= 0 c= 0 d= 0 e= 0 f= 0 NpI+++ charge= 3 ion size= 0.0 A mole wt.= 363.9525 g 2 species in reaction 1.000 Np++++ 1.000 I- * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Acetate) formula= NpO2(CH3COO) charge= 0 ion size= 0.0 A mole wt.= 328.0897 g 2 species in reaction 1.000 NpO2+ 1.000 Acetate- * log10 K(298 K) = -1.3200 a= -1.32 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Acetate)2- formula= NpO2(CH3COO)2- charge= -1 ion size= 0.0 A mole wt.= 387.1334 g 2 species in reaction 1.000 NpO2+ 2.000 Acetate- * log10 K(298 K) = -3.4200 a= -3.42 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Acetate)3-- formula= NpO2(CH3COO)3-- charge= -2 ion size= 0.0 A mole wt.= 446.1771 g 2 species in reaction 1.000 NpO2+ 3.000 Acetate- * log10 K(298 K) = -3.5700 a= -3.57 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Cit)-- formula= NpO2COOCH2COHCOOCH2COO-- charge= -2 ion size= 0.0 A mole wt.= 458.1445 g 2 species in reaction 1.000 NpO2+ 1.000 Cit--- * log10 K(298 K) = -3.6800 a= -3.68 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3) charge= 0 ion size= 0.0 A mole wt.= 329.0540 g 2 species in reaction 1.000 NpO2++ 1.000 CO3-- * log10 K(298 K) = -9.3200 a= -9.32 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)(OH)2-- charge= -2 ion size= 0.0 A mole wt.= 363.0678 g 4 species in reaction 1.000 NpO2++ -2.000 H+ 1.000 CO3-- 2.000 H2O * log10 K(298 K) = 7.6900 a= 7.69 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)- charge= -1 ion size= 0.0 A mole wt.= 329.0540 g 2 species in reaction 1.000 NpO2+ 1.000 CO3-- * log10 K(298 K) = -4.9600 a= -4.959973889 b= 0 c= 0 d= 3129.42 e= 0 f= 0 NpO2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 389.0620 g 2 species in reaction 1.000 NpO2++ 2.000 CO3-- * log10 K(298 K) = -16.5200 a= -16.5200085 b= 0 c= 0 d= 718.211 e= 0 f= 0 NpO2(CO3)2--- charge= -3 ion size= 0.0 A mole wt.= 389.0620 g 2 species in reaction 1.000 NpO2+ 2.000 CO3-- * log10 K(298 K) = -6.5300 a= -6.53000706 b= 0 c= 0 d= 2038.36 e= 0 f= 0 NpO2(CO3)2OH---- charge= -4 ion size= 0.0 A mole wt.= 406.0689 g 4 species in reaction 1.000 NpO2+ -1.000 H+ 2.000 CO3-- 1.000 H2O * log10 K(298 K) = 5.3100 a= 5.31 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 449.0700 g 2 species in reaction 1.000 NpO2++ 3.000 CO3-- * log10 K(298 K) = -19.3700 a= -19.36996683 b= 0 c= 0 d= -2188.59 e= 0 f= 0 NpO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 449.0700 g 2 species in reaction 1.000 NpO2+ 3.000 CO3-- * log10 K(298 K) = -5.5000 a= -5.500000241 b= 0 c= 0 d= -692.042 e= 0 f= 0 NpO2(Edta)--- formula= NpO2(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 557.2562 g 2 species in reaction 1.000 NpO2+ 1.000 Edta---- * log10 K(298 K) = -9.2300 a= -9.23 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(H2Edta)- formula= NpO2H2(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 559.2720 g 3 species in reaction 1.000 NpO2+ 2.000 H+ 1.000 Edta---- * log10 K(298 K) = -22.5100 a= -22.51 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(HEdta)-- formula= NpO2H(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 558.2641 g 3 species in reaction 1.000 NpO2+ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -17.0600 a= -17.06 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(HNta)- formula= NpO2(HN(CH2COO)3)- charge= -1 ion size= 0.0 A mole wt.= 458.1680 g 3 species in reaction 1.000 NpO2+ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -11.7000 a= -11.7 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(HPO4) charge= 0 ion size= 0.0 A mole wt.= 365.0237 g 3 species in reaction 1.000 NpO2++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 1.0100 a= 1.010036324 b= 0 c= 0 d= 4815.67 e= 0 f= 0 NpO2(HPO4)2-- charge= -2 ion size= 0.0 A mole wt.= 461.0014 g 3 species in reaction 1.000 NpO2++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 4.9200 a= 4.92 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 331.0497 g 2 species in reaction 1.000 NpO2++ 1.000 NO3- * log10 K(298 K) = -0.1000 a= -0.1 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Nta)- formula= NpO2N(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 457.1601 g 2 species in reaction 1.000 NpO2++ 1.000 Nta--- * log10 K(298 K) = -11.0000 a= -11 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Nta)-- formula= NpO2N(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 457.1601 g 2 species in reaction 1.000 NpO2+ 1.000 Nta--- * log10 K(298 K) = -7.4600 a= -7.46 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(OH) charge= 0 ion size= 0.0 A mole wt.= 286.0529 g 3 species in reaction 1.000 NpO2+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 11.3000 a= 11.29999581 b= 0 c= 0 d= 3383.95 e= 0 f= 0 NpO2(OH)(Nta)--- formula= NpO2(OH)N(CH2COO)3--- charge= -3 ion size= 0.0 A mole wt.= 474.1670 g 4 species in reaction 1.000 NpO2+ -1.000 H+ 1.000 Nta--- 1.000 H2O * log10 K(298 K) = 4.7000 a= 4.7 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(OH)+ charge= 1 ion size= 0.0 A mole wt.= 286.0529 g 3 species in reaction 1.000 NpO2++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 5.1000 a= 5.099980835 b= 0 c= 0 d= 2243.74 e= 0 f= 0 NpO2(OH)2 charge= 0 ion size= 0.0 A mole wt.= 303.0598 g 3 species in reaction 1.000 NpO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 12.2100 a= 12.21 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(OH)2- charge= -1 ion size= 0.0 A mole wt.= 303.0598 g 3 species in reaction 1.000 NpO2+ -2.000 H+ 2.000 H2O * log10 K(298 K) = 23.6000 a= 23.5999905 b= 0 c= 0 d= 6195.42 e= 0 f= 0 NpO2(Ox)- formula= NpO2(COO)2- charge= -1 ion size= 0.0 A mole wt.= 357.0640 g 2 species in reaction 1.000 NpO2+ 1.000 Ox-- * log10 K(298 K) = -3.9000 a= -3.9 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(Ox)2--- formula= NpO2((COO)2)2--- charge= -3 ion size= 0.0 A mole wt.= 445.0820 g 2 species in reaction 1.000 NpO2+ 2.000 Ox-- * log10 K(298 K) = -5.8000 a= -5.8 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(SO4) charge= 0 ion size= 0.0 A mole wt.= 365.1080 g 2 species in reaction 1.000 NpO2++ 1.000 SO4-- * log10 K(298 K) = -3.2800 a= -3.280001464 b= 0 c= 0 d= 872.3 e= 0 f= 0 NpO2(SO4)- charge= -1 ion size= 0.0 A mole wt.= 365.1080 g 2 species in reaction 1.000 NpO2+ 1.000 SO4-- * log10 K(298 K) = -0.4400 a= -0.4399958041 b= 0 c= 0 d= 1211.82 e= 0 f= 0 NpO2(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 461.1700 g 2 species in reaction 1.000 NpO2++ 2.000 SO4-- * log10 K(298 K) = -4.7000 a= -4.700010901 b= 0 c= 0 d= 1358.07 e= 0 f= 0 NpO2Cl charge= 0 ion size= 0.0 A mole wt.= 304.4987 g 2 species in reaction 1.000 NpO2+ 1.000 Cl- * log10 K(298 K) = 0.9300 a= 0.9300045346 b= 0 c= 0 d= 1356.56 e= 0 f= 0 NpO2Cl+ charge= 1 ion size= 0.0 A mole wt.= 304.4987 g 2 species in reaction 1.000 NpO2++ 1.000 Cl- * log10 K(298 K) = -0.4000 a= -0.4000024182 b= 0 c= 0 d= 438.083 e= 0 f= 0 NpO2F charge= 0 ion size= 0.0 A mole wt.= 288.0444 g 2 species in reaction 1.000 NpO2+ 1.000 F- * log10 K(298 K) = -1.2000 a= -1.200015105 b= 0 c= 0 d= 2129.35 e= 0 f= 0 NpO2F+ charge= 1 ion size= 0.0 A mole wt.= 288.0444 g 2 species in reaction 1.000 NpO2++ 1.000 F- * log10 K(298 K) = -4.5700 a= -4.57000084 b= 0 c= 0 d= 73.127 e= 0 f= 0 NpO2F2 charge= 0 ion size= 0.0 A mole wt.= 307.0428 g 2 species in reaction 1.000 NpO2++ 2.000 F- * log10 K(298 K) = -7.6000 a= -7.599999546 b= 0 c= 0 d= 225.649 e= 0 f= 0 NpO2H2PO4+ charge= 1 ion size= 0.0 A mole wt.= 366.0316 g 2 species in reaction 1.000 NpO2++ 1.000 H2(PO4)- * log10 K(298 K) = -3.3200 a= -3.32 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2HPO4- charge= -1 ion size= 0.0 A mole wt.= 365.0237 g 3 species in reaction 1.000 NpO2+ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.2600 a= 4.26 b= 0 c= 0 d= 0 e= 0 f= 0 NpPO4 charge= 0 ion size= 0.0 A mole wt.= 332.0178 g 3 species in reaction 1.000 Np+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 7.8300 a= 7.83 b= 0 c= 0 d= 0 e= 0 f= 0 OH- charge= -1 ion size= 0.0 A mole wt.= 17.0069 g 2 species in reaction -1.000 H+ 1.000 H2O * log10 K(298 K) = 14.0000 a= 14.00001659 b= 0 c= 0 d= 2915.42 e= 0 f= 0 Pa(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 248.0428 g 3 species in reaction -1.000 H+ 1.000 Pa++++ 1.000 H2O * log10 K(298 K) = -0.8400 a= -0.84 b= 0 c= 0 d= 0 e= 0 f= 0 Pa(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 265.0497 g 3 species in reaction -2.000 H+ 1.000 Pa++++ 2.000 H2O * log10 K(298 K) = 0.0200 a= 0.02 b= 0 c= 0 d= 0 e= 0 f= 0 Pa(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 282.0566 g 3 species in reaction -3.000 H+ 1.000 Pa++++ 3.000 H2O * log10 K(298 K) = 1.5000 a= 1.5 b= 0 c= 0 d= 0 e= 0 f= 0 PaO(OH)++ charge= 2 ion size= 0.0 A mole wt.= 264.0418 g 2 species in reaction 1.000 H+ 1.000 PaO2+ * log10 K(298 K) = -1.2500 a= -1.249998667 b= 0 c= 0 d= -297.731 e= 0 f= 0 PaO(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 343.0969 g 4 species in reaction 2.000 H+ 1.000 SO4-- 1.000 PaO2+ -1.000 H2O * log10 K(298 K) = -5.1300 a= -5.13 b= 0 c= 0 d= 0 e= 0 f= 0 PaO(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 439.1589 g 4 species in reaction 2.000 H+ 2.000 SO4-- 1.000 PaO2+ -1.000 H2O * log10 K(298 K) = -8.2400 a= -8.24 b= 0 c= 0 d= 0 e= 0 f= 0 PaO(SO4)3--- charge= -3 ion size= 0.0 A mole wt.= 535.2209 g 4 species in reaction 2.000 H+ 3.000 SO4-- 1.000 PaO2+ -1.000 H2O * log10 K(298 K) = -9.8300 a= -9.83 b= 0 c= 0 d= 0 e= 0 f= 0 PaO2(OH) charge= 0 ion size= 0.0 A mole wt.= 280.0408 g 3 species in reaction -1.000 H+ 1.000 PaO2+ 1.000 H2O * log10 K(298 K) = 7.0000 a= 7.000004865 b= 0 c= 0 d= 3186.25 e= 0 f= 0 PaO2(OH)2- charge= -1 ion size= 0.0 A mole wt.= 297.0477 g 3 species in reaction -2.000 H+ 1.000 PaO2+ 2.000 H2O * log10 K(298 K) = 16.4000 a= 16.4 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(B(OH)4)+ charge= 1 ion size= 0.0 A mole wt.= 286.0386 g 2 species in reaction 1.000 Pb++ 1.000 B(OH)4- * log10 K(298 K) = -5.2000 a= -5.2 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(B(OH)4)3- charge= -1 ion size= 0.0 A mole wt.= 443.7158 g 2 species in reaction 1.000 Pb++ 3.000 B(OH)4- * log10 K(298 K) = -11.1800 a= -11.18 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(CO3) charge= 0 ion size= 0.0 A mole wt.= 267.2080 g 2 species in reaction 1.000 Pb++ 1.000 CO3-- * log10 K(298 K) = -7.0000 a= -7.000003924 b= 0 c= 0 d= -157.484 e= 0 f= 0 Pb(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 327.2160 g 2 species in reaction 1.000 Pb++ 2.000 CO3-- * log10 K(298 K) = -10.1300 a= -10.13 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 304.1856 g 2 species in reaction 1.000 Pb++ 1.000 H2(PO4)- * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(HS)2 charge= 0 ion size= 0.0 A mole wt.= 273.3478 g 2 species in reaction 1.000 Pb++ 2.000 HS- * log10 K(298 K) = -15.0100 a= -15.00998498 b= 0 c= 0 d= -3425.42 e= 0 f= 0 Pb(HS)3- charge= -1 ion size= 0.0 A mole wt.= 306.4217 g 2 species in reaction 1.000 Pb++ 3.000 HS- * log10 K(298 K) = -16.2600 a= -16.25998437 b= 0 c= 0 d= -3830.23 e= 0 f= 0 Pb(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 269.2037 g 2 species in reaction 1.000 Pb++ 1.000 NO3- * log10 K(298 K) = -1.0600 a= -1.06 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(NO3)2 charge= 0 ion size= 0.0 A mole wt.= 331.2074 g 2 species in reaction 1.000 Pb++ 2.000 NO3- * log10 K(298 K) = -1.4800 a= -1.479999837 b= 0 c= 0 d= -575.196 e= 0 f= 0 Pb(OH)+ charge= 1 ion size= 0.0 A mole wt.= 224.2069 g 3 species in reaction 1.000 Pb++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 7.5100 a= 7.509992507 b= 0 c= 0 d= 2816.43 e= 0 f= 0 Pb(OH)2 charge= 0 ion size= 0.0 A mole wt.= 241.2138 g 3 species in reaction 1.000 Pb++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 16.9500 a= 16.95001378 b= 0 c= 0 d= 5109.7 e= 0 f= 0 Pb(OH)3- charge= -1 ion size= 0.0 A mole wt.= 258.2207 g 3 species in reaction 1.000 Pb++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 27.2000 a= 27.20000981 b= 0 c= 0 d= 6815.7 e= 0 f= 0 Pb(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 275.2276 g 3 species in reaction 1.000 Pb++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 38.9001 a= 38.90009872 b= 0 c= 0 d= 10314.8 e= 0 f= 0 Pb(SeO3) charge= 0 ion size= 0.0 A mole wt.= 334.1570 g 2 species in reaction 1.000 Pb++ 1.000 SeO3-- * log10 K(298 K) = -5.7300 a= -5.73 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(SO4) charge= 0 ion size= 0.0 A mole wt.= 303.2620 g 2 species in reaction 1.000 Pb++ 1.000 SO4-- * log10 K(298 K) = -2.8200 a= -2.819997714 b= 0 c= 0 d= 358.374 e= 0 f= 0 Pb(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 399.3240 g 2 species in reaction 1.000 Pb++ 2.000 SO4-- * log10 K(298 K) = -3.4700 a= -3.47 b= 0 c= 0 d= 0 e= 0 f= 0 Pb2(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 431.4069 g 3 species in reaction 2.000 Pb++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 7.1800 a= 7.18 b= 0 c= 0 d= 0 e= 0 f= 0 Pb4(OH)4++++ charge= 4 ion size= 0.0 A mole wt.= 896.8276 g 3 species in reaction 4.000 Pb++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 20.6300 a= 20.63000998 b= 0 c= 0 d= 4285.14 e= 0 f= 0 Pb6(OH)8++++ charge= 4 ion size= 0.0 A mole wt.= 1379.2552 g 3 species in reaction 6.000 Pb++ -8.000 H+ 8.000 H2O * log10 K(298 K) = 42.6799 a= 42.67985295 b= 0 c= 0 d= 10037 e= 0 f= 0 PbBr+ charge= 1 ion size= 0.0 A mole wt.= 287.1040 g 2 species in reaction 1.000 Pb++ 1.000 Br- * log10 K(298 K) = -1.7000 a= -1.699997573 b= 0 c= 0 d= 220.426 e= 0 f= 0 PbBr2 charge= 0 ion size= 0.0 A mole wt.= 367.0080 g 2 species in reaction 1.000 Pb++ 2.000 Br- * log10 K(298 K) = -1.9000 a= -1.900005487 b= 0 c= 0 d= 573.472 e= 0 f= 0 PbBr3- charge= -1 ion size= 0.0 A mole wt.= 446.9120 g 2 species in reaction 1.000 Pb++ 3.000 Br- * log10 K(298 K) = -2.9000 a= -2.899997679 b= 0 c= 0 d= 556.444 e= 0 f= 0 PbCl+ charge= 1 ion size= 0.0 A mole wt.= 242.6527 g 2 species in reaction 1.000 Pb++ 1.000 Cl- * log10 K(298 K) = -1.4400 a= -1.439998363 b= 0 c= 0 d= 225.545 e= 0 f= 0 PbCl2 charge= 0 ion size= 0.0 A mole wt.= 278.1054 g 2 species in reaction 1.000 Pb++ 2.000 Cl- * log10 K(298 K) = -2.0000 a= -2.000003369 b= 0 c= 0 d= 415.152 e= 0 f= 0 PbCl3- charge= -1 ion size= 0.0 A mole wt.= 313.5581 g 2 species in reaction 1.000 Pb++ 3.000 Cl- * log10 K(298 K) = -1.6900 a= -1.689996948 b= 0 c= 0 d= 408.049 e= 0 f= 0 PbCl4-- charge= -2 ion size= 0.0 A mole wt.= 349.0108 g 2 species in reaction 1.000 Pb++ 4.000 Cl- * log10 K(298 K) = -1.4000 a= -1.399995615 b= 0 c= 0 d= 69.1572 e= 0 f= 0 PbF+ charge= 1 ion size= 0.0 A mole wt.= 226.1984 g 2 species in reaction 1.000 Pb++ 1.000 F- * log10 K(298 K) = -2.2700 a= -2.26999975 b= 0 c= 0 d= -211.755 e= 0 f= 0 PbF2 charge= 0 ion size= 0.0 A mole wt.= 245.1968 g 2 species in reaction 1.000 Pb++ 2.000 F- * log10 K(298 K) = -3.0100 a= -3.01000245 b= 0 c= 0 d= -463.782 e= 0 f= 0 PbHPO4 charge= 0 ion size= 0.0 A mole wt.= 303.1777 g 3 species in reaction 1.000 Pb++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.1100 a= 4.11 b= 0 c= 0 d= 0 e= 0 f= 0 PbI+ charge= 1 ion size= 0.0 A mole wt.= 334.1045 g 2 species in reaction 1.000 Pb++ 1.000 I- * log10 K(298 K) = -1.9800 a= -1.979994712 b= 0 c= 0 d= 202.353 e= 0 f= 0 PbI2 charge= 0 ion size= 0.0 A mole wt.= 461.0090 g 2 species in reaction 1.000 Pb++ 2.000 I- * log10 K(298 K) = -3.1500 a= -3.150003012 b= 0 c= 0 d= 371.172 e= 0 f= 0 PbI3- charge= -1 ion size= 0.0 A mole wt.= 587.9135 g 2 species in reaction 1.000 Pb++ 3.000 I- * log10 K(298 K) = -3.8100 a= -3.809996175 b= 0 c= 0 d= 165.215 e= 0 f= 0 PbI4-- charge= -2 ion size= 0.0 A mole wt.= 714.8180 g 2 species in reaction 1.000 Pb++ 4.000 I- * log10 K(298 K) = -3.7500 a= -3.749994682 b= 0 c= 0 d= -812.806 e= 0 f= 0 PbPyrophos-- formula= PbP2O7-- charge= -2 ion size= 0.0 A mole wt.= 381.1406 g 2 species in reaction 1.000 Pb++ 1.000 Pyrophos---- * log10 K(298 K) = -8.3300 a= -8.33 b= 0 c= 0 d= 0 e= 0 f= 0 Pd(CO3) charge= 0 ion size= 0.0 A mole wt.= 166.4280 g 2 species in reaction 1.000 Pd++ 1.000 CO3-- * log10 K(298 K) = -6.8300 a= -6.830003545 b= 0 c= 0 d= -461.901 e= 0 f= 0 Pd(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 226.4360 g 2 species in reaction 1.000 Pd++ 2.000 CO3-- * log10 K(298 K) = -12.5300 a= -12.53 b= 0 c= 0 d= 0 e= 0 f= 0 Pd(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 123.4504 g 2 species in reaction 1.000 Pd++ 1.000 NH3 * log10 K(298 K) = -9.6000 a= -9.6 b= 0 c= 0 d= 0 e= 0 f= 0 Pd(NH3)2++ charge= 2 ion size= 0.0 A mole wt.= 140.4808 g 2 species in reaction 1.000 Pd++ 2.000 NH3 * log10 K(298 K) = -18.5000 a= -18.5 b= 0 c= 0 d= 0 e= 0 f= 0 Pd(NH3)3++ charge= 2 ion size= 0.0 A mole wt.= 157.5112 g 2 species in reaction 1.000 Pd++ 3.000 NH3 * log10 K(298 K) = -26.0000 a= -26 b= 0 c= 0 d= 0 e= 0 f= 0 Pd(NH3)4++ charge= 2 ion size= 0.0 A mole wt.= 174.5416 g 2 species in reaction 1.000 Pd++ 4.000 NH3 * log10 K(298 K) = -32.8000 a= -32.8 b= 0 c= 0 d= 0 e= 0 f= 0 Pd(OH)+ charge= 1 ion size= 0.0 A mole wt.= 123.4269 g 3 species in reaction -1.000 H+ 1.000 Pd++ 1.000 H2O * log10 K(298 K) = 1.8600 a= 1.85999916 b= 0 c= 0 d= 621.997 e= 0 f= 0 Pd(OH)2 charge= 0 ion size= 0.0 A mole wt.= 140.4338 g 3 species in reaction -2.000 H+ 1.000 Pd++ 2.000 H2O * log10 K(298 K) = 3.7900 a= 3.789999762 b= 0 c= 0 d= 798.547 e= 0 f= 0 Pd(OH)3- charge= -1 ion size= 0.0 A mole wt.= 157.4407 g 3 species in reaction -3.000 H+ 1.000 Pd++ 3.000 H2O * log10 K(298 K) = 15.9300 a= 15.93000931 b= 0 c= 0 d= 2865.43 e= 0 f= 0 Pd(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 174.4476 g 3 species in reaction -4.000 H+ 1.000 Pd++ 4.000 H2O * log10 K(298 K) = 29.3600 a= 29.36001112 b= 0 c= 0 d= 6192.71 e= 0 f= 0 Pd(SO4) charge= 0 ion size= 0.0 A mole wt.= 202.4820 g 2 species in reaction 1.000 Pd++ 1.000 SO4-- * log10 K(298 K) = -2.9100 a= -2.909996669 b= 0 c= 0 d= 239.648 e= 0 f= 0 Pd(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 298.5440 g 2 species in reaction 1.000 Pd++ 2.000 SO4-- * log10 K(298 K) = -4.1700 a= -4.17 b= 0 c= 0 d= 0 e= 0 f= 0 PdBr+ charge= 1 ion size= 0.0 A mole wt.= 186.3240 g 2 species in reaction 1.000 Pd++ 1.000 Br- * log10 K(298 K) = -5.7700 a= -5.769997198 b= 0 c= 0 d= -1574.58 e= 0 f= 0 PdBr2 charge= 0 ion size= 0.0 A mole wt.= 266.2280 g 2 species in reaction 1.000 Pd++ 2.000 Br- * log10 K(298 K) = -10.0600 a= -10.06000758 b= 0 c= 0 d= -3014.61 e= 0 f= 0 PdBr3- charge= -1 ion size= 0.0 A mole wt.= 346.1320 g 2 species in reaction 1.000 Pd++ 3.000 Br- * log10 K(298 K) = -13.7500 a= -13.75000375 b= 0 c= 0 d= -4825.86 e= 0 f= 0 PdBr4-- charge= -2 ion size= 0.0 A mole wt.= 426.0360 g 2 species in reaction 1.000 Pd++ 4.000 Br- * log10 K(298 K) = -15.1100 a= -15.11001773 b= 0 c= 0 d= -6617.37 e= 0 f= 0 PdCl+ charge= 1 ion size= 0.0 A mole wt.= 141.8727 g 2 species in reaction 1.000 Pd++ 1.000 Cl- * log10 K(298 K) = -5.1000 a= -5.100006673 b= 0 c= 0 d= -1281.03 e= 0 f= 0 PdCl2 charge= 0 ion size= 0.0 A mole wt.= 177.3254 g 2 species in reaction 1.000 Pd++ 2.000 Cl- * log10 K(298 K) = -8.3000 a= -8.299987959 b= 0 c= 0 d= -2473.36 e= 0 f= 0 PdCl3(OH)-- charge= -2 ion size= 0.0 A mole wt.= 229.7850 g 4 species in reaction -1.000 H+ 1.000 Pd++ 3.000 Cl- 1.000 H2O * log10 K(298 K) = -2.3100 a= -2.31 b= 0 c= 0 d= 0 e= 0 f= 0 PdCl3- charge= -1 ion size= 0.0 A mole wt.= 212.7781 g 2 species in reaction 1.000 Pd++ 3.000 Cl- * log10 K(298 K) = -10.9000 a= -10.89998708 b= 0 c= 0 d= -4052.12 e= 0 f= 0 PdCl4-- charge= -2 ion size= 0.0 A mole wt.= 248.2308 g 2 species in reaction 1.000 Pd++ 4.000 Cl- * log10 K(298 K) = -11.7000 a= -11.69999593 b= 0 c= 0 d= -5874.97 e= 0 f= 0 PdI+ charge= 1 ion size= 0.0 A mole wt.= 233.3245 g 2 species in reaction 1.000 Pd++ 1.000 I- * log10 K(298 K) = -10.4000 a= -10.40001071 b= 0 c= 0 d= -3040.31 e= 0 f= 0 PdI2 charge= 0 ion size= 0.0 A mole wt.= 360.2290 g 2 species in reaction 1.000 Pd++ 2.000 I- * log10 K(298 K) = -14.5000 a= -14.49998394 b= 0 c= 0 d= -4357.58 e= 0 f= 0 PdI3- charge= -1 ion size= 0.0 A mole wt.= 487.1335 g 2 species in reaction 1.000 Pd++ 3.000 I- * log10 K(298 K) = -18.6000 a= -18.60000832 b= 0 c= 0 d= -6359.7 e= 0 f= 0 PdI4-- charge= -2 ion size= 0.0 A mole wt.= 614.0380 g 2 species in reaction 1.000 Pd++ 4.000 I- * log10 K(298 K) = -24.6400 a= -24.6399894 b= 0 c= 0 d= -9927.56 e= 0 f= 0 PO4--- charge= -3 ion size= 0.0 A mole wt.= 94.9698 g 2 species in reaction -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 19.5600 a= 19.55999908 b= 0 c= 0 d= 950.651 e= 0 f= 0 Pu(Acetate)++ formula= Pu(CH3COO)++ charge= 2 ion size= 0.0 A mole wt.= 303.0437 g 2 species in reaction 1.000 Pu+++ 1.000 Acetate- * log10 K(298 K) = -2.8500 a= -2.85 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Acetate)+++ formula= Pu(CH3COO)+++ charge= 3 ion size= 0.0 A mole wt.= 303.0437 g 2 species in reaction 1.000 Pu++++ 1.000 Acetate- * log10 K(298 K) = -5.9300 a= -5.93 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Acetate)2+ formula= Pu(CH3COO)2+ charge= 1 ion size= 0.0 A mole wt.= 362.0874 g 2 species in reaction 1.000 Pu+++ 2.000 Acetate- * log10 K(298 K) = -5.0600 a= -5.06 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Acetate)2++ formula= Pu(CH3COO)2++ charge= 2 ion size= 0.0 A mole wt.= 362.0874 g 2 species in reaction 1.000 Pu++++ 2.000 Acetate- * log10 K(298 K) = -10.0900 a= -10.09 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Acetate)3 formula= Pu(CH3COO)3 charge= 0 ion size= 0.0 A mole wt.= 421.1311 g 2 species in reaction 1.000 Pu+++ 3.000 Acetate- * log10 K(298 K) = -6.5700 a= -6.57 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)+ charge= 1 ion size= 0.0 A mole wt.= 304.0080 g 2 species in reaction 1.000 Pu+++ 1.000 CO3-- * log10 K(298 K) = -7.6400 a= -7.640040751 b= 0 c= 0 d= 7978.78 e= 0 f= 0 Pu(CO3)2(OH)2-- charge= -2 ion size= 0.0 A mole wt.= 398.0298 g 4 species in reaction 1.000 Pu++++ -2.000 H+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -16.7600 a= -16.76 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 364.0160 g 2 species in reaction 1.000 Pu+++ 2.000 CO3-- * log10 K(298 K) = -12.5400 a= -12.54 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 424.0240 g 2 species in reaction 1.000 Pu+++ 3.000 CO3-- * log10 K(298 K) = -16.4000 a= -16.4 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 484.0320 g 2 species in reaction 1.000 Pu++++ 4.000 CO3-- * log10 K(298 K) = -37.0000 a= -37 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 544.0400 g 2 species in reaction 1.000 Pu++++ 5.000 CO3-- * log10 K(298 K) = -35.6500 a= -35.65 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Edta) formula= Pu(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 532.2102 g 2 species in reaction 1.000 Pu++++ 1.000 Edta---- * log10 K(298 K) = -31.8000 a= -31.8 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Edta)- formula= Pu(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 532.2102 g 2 species in reaction 1.000 Pu+++ 1.000 Edta---- * log10 K(298 K) = -20.1800 a= -20.1799724 b= 0 c= 0 d= -454.432 e= 0 f= 0 Pu(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 340.9856 g 2 species in reaction 1.000 Pu+++ 1.000 H2(PO4)- * log10 K(298 K) = -2.2000 a= -2.2 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(HEdta) formula= PuH(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 533.2181 g 3 species in reaction 1.000 Pu+++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -22.0200 a= -22.02 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 339.9777 g 3 species in reaction 1.000 Pu+++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 1.8200 a= 1.82 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 435.9554 g 3 species in reaction 1.000 Pu+++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 5.4600 a= 5.46 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(NO3)++ charge= 2 ion size= 0.0 A mole wt.= 306.0037 g 2 species in reaction 1.000 Pu+++ 1.000 NO3- * log10 K(298 K) = -1.3300 a= -1.33 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(NO3)+++ charge= 3 ion size= 0.0 A mole wt.= 306.0037 g 2 species in reaction 1.000 Pu++++ 1.000 NO3- * log10 K(298 K) = -1.9500 a= -1.95 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Nta) formula= PuN(CH2COO)3 charge= 0 ion size= 0.0 A mole wt.= 432.1141 g 2 species in reaction 1.000 Pu+++ 1.000 Nta--- * log10 K(298 K) = -13.1000 a= -13.1 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Nta)+ formula= PuN(CH2COO)3+ charge= 1 ion size= 0.0 A mole wt.= 432.1141 g 2 species in reaction 1.000 Pu++++ 1.000 Nta--- * log10 K(298 K) = -21.0000 a= -21 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)++ charge= 2 ion size= 0.0 A mole wt.= 261.0069 g 3 species in reaction 1.000 Pu+++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 6.9000 a= 6.900009113 b= 0 c= 0 d= 4088.48 e= 0 f= 0 Pu(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 261.0069 g 3 species in reaction 1.000 Pu++++ -1.000 H+ 1.000 H2O * log10 K(298 K) = -0.6000 a= -0.5999939561 b= 0 c= 0 d= 1880.41 e= 0 f= 0 Pu(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 278.0138 g 3 species in reaction 1.000 Pu+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 15.9000 a= 15.89998796 b= 0 c= 0 d= 7852.85 e= 0 f= 0 Pu(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 278.0138 g 3 species in reaction 1.000 Pu++++ -2.000 H+ 2.000 H2O * log10 K(298 K) = -0.6000 a= -0.6000002096 b= 0 c= 0 d= 2589.06 e= 0 f= 0 Pu(OH)3 charge= 0 ion size= 0.0 A mole wt.= 295.0207 g 3 species in reaction 1.000 Pu+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 25.2999 a= 25.29992073 b= 0 c= 0 d= 11885.1 e= 0 f= 0 Pu(OH)3(HGlu) formula= Pu(OH)3HOCH2(CHOH)4COO charge= 0 ion size= 0.0 A mole wt.= 490.1666 g 4 species in reaction 1.000 Pu++++ -3.000 H+ 1.000 HGlu- 3.000 H2O * log10 K(298 K) = -4.7500 a= -4.75 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)3(HIsa) formula= Pu(OH)3(C6H11O6) charge= 0 ion size= 0.0 A mole wt.= 474.1676 g 4 species in reaction 1.000 Pu++++ -3.000 H+ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = -4.7500 a= -4.75 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)3(HIsa)2- formula= Pu(OH)3(C6H11O6)2- charge= -1 ion size= 0.0 A mole wt.= 653.3145 g 4 species in reaction 1.000 Pu++++ -3.000 H+ 2.000 HIsa- 3.000 H2O * log10 K(298 K) = -6.8600 a= -6.86 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 295.0207 g 3 species in reaction 1.000 Pu++++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 2.3000 a= 2.299986099 b= 0 c= 0 d= 3580.19 e= 0 f= 0 Pu(OH)4 charge= 0 ion size= 0.0 A mole wt.= 312.0276 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 8.5000 a= 8.500000047 b= 0 c= 0 d= 5173.63 e= 0 f= 0 Pu(OH)4(HGlu)- formula= Pu(OH)4HOCH2(CHOH)4COO- charge= -1 ion size= 0.0 A mole wt.= 507.1735 g 4 species in reaction 1.000 Pu++++ -4.000 H+ 1.000 HGlu- 4.000 H2O * log10 K(298 K) = 2.7000 a= 2.7 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)4(HIsa)- formula= Pu(OH)4(C6H11O6)- charge= -1 ion size= 0.0 A mole wt.= 491.1745 g 4 species in reaction 1.000 Pu++++ -4.000 H+ 1.000 HIsa- 4.000 H2O * log10 K(298 K) = 3.6000 a= 3.6 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)4(HIsa)2-- formula= Pu(OH)4(C6H11O6)2-- charge= -2 ion size= 0.0 A mole wt.= 670.3214 g 4 species in reaction 1.000 Pu++++ -4.000 H+ 2.000 HIsa- 4.000 H2O * log10 K(298 K) = -0.7000 a= -0.7 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Ox)++ formula= Pu(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 332.0180 g 2 species in reaction 1.000 Pu++++ 1.000 Ox-- * log10 K(298 K) = -11.4000 a= -11.4 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Ox)2 formula= Pu((COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 420.0360 g 2 species in reaction 1.000 Pu++++ 2.000 Ox-- * log10 K(298 K) = -20.6000 a= -20.6 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Ox)2- formula= Pu((COO)2)2- charge= -1 ion size= 0.0 A mole wt.= 420.0360 g 2 species in reaction 1.000 Pu+++ 2.000 Ox-- * log10 K(298 K) = -10.6200 a= -10.62 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Ox)3-- formula= Pu((COO)2)3-- charge= -2 ion size= 0.0 A mole wt.= 508.0540 g 2 species in reaction 1.000 Pu++++ 3.000 Ox-- * log10 K(298 K) = -25.6900 a= -25.69 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(Ox)3--- formula= Pu((COO)2)3--- charge= -3 ion size= 0.0 A mole wt.= 508.0540 g 2 species in reaction 1.000 Pu+++ 3.000 Ox-- * log10 K(298 K) = -13.2200 a= -13.22 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 433.9396 g 3 species in reaction 1.000 Pu+++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 19.7300 a= 19.73 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 340.0620 g 2 species in reaction 1.000 Pu+++ 1.000 SO4-- * log10 K(298 K) = -3.9100 a= -3.909994722 b= 0 c= 0 d= 900.507 e= 0 f= 0 Pu(SO4)++ charge= 2 ion size= 0.0 A mole wt.= 340.0620 g 2 species in reaction 1.000 Pu++++ 1.000 SO4-- * log10 K(298 K) = -6.8900 a= -6.889997513 b= 0 c= 0 d= 718.42 e= 0 f= 0 Pu(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 436.1240 g 2 species in reaction 1.000 Pu++++ 2.000 SO4-- * log10 K(298 K) = -11.1400 a= -11.14003163 b= 0 c= 0 d= 2293.42 e= 0 f= 0 Pu(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 436.1240 g 2 species in reaction 1.000 Pu+++ 2.000 SO4-- * log10 K(298 K) = -5.7000 a= -5.699995412 b= 0 c= 0 d= 620.535 e= 0 f= 0 PuBr+++ charge= 3 ion size= 0.0 A mole wt.= 323.9040 g 2 species in reaction 1.000 Pu++++ 1.000 Br- * log10 K(298 K) = -1.6000 a= -1.6 b= 0 c= 0 d= 0 e= 0 f= 0 PuCl+++ charge= 3 ion size= 0.0 A mole wt.= 279.4527 g 2 species in reaction 1.000 Pu++++ 1.000 Cl- * log10 K(298 K) = -1.8000 a= -1.799997406 b= 0 c= 0 d= 1035.27 e= 0 f= 0 PuF+++ charge= 3 ion size= 0.0 A mole wt.= 262.9984 g 2 species in reaction 1.000 Pu++++ 1.000 F- * log10 K(298 K) = -8.8400 a= -8.839952138 b= 0 c= 0 d= 475.325 e= 0 f= 0 PuF2++ charge= 2 ion size= 0.0 A mole wt.= 281.9968 g 2 species in reaction 1.000 Pu++++ 2.000 F- * log10 K(298 K) = -15.7000 a= -15.69998613 b= 0 c= 0 d= 574.569 e= 0 f= 0 PuF3+ charge= 1 ion size= 0.0 A mole wt.= 300.9952 g 2 species in reaction 1.000 Pu++++ 3.000 F- * log10 K(298 K) = -20.1100 a= -20.11 b= 0 c= 0 d= 0 e= 0 f= 0 PuH3PO4++++ charge= 4 ion size= 0.0 A mole wt.= 341.9935 g 3 species in reaction 1.000 Pu++++ 1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -4.5400 a= -4.54 b= 0 c= 0 d= 0 e= 0 f= 0 PuI++ charge= 2 ion size= 0.0 A mole wt.= 370.9045 g 2 species in reaction 1.000 Pu+++ 1.000 I- * log10 K(298 K) = -1.1000 a= -1.1 b= 0 c= 0 d= 0 e= 0 f= 0 PuI+++ charge= 3 ion size= 0.0 A mole wt.= 370.9045 g 2 species in reaction 1.000 Pu++++ 1.000 I- * log10 K(298 K) = -1.6200 a= -1.62 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Acetate)+ formula= PuO2(CH3COO)+ charge= 1 ion size= 0.0 A mole wt.= 335.0417 g 2 species in reaction 1.000 PuO2++ 1.000 Acetate- * log10 K(298 K) = -2.8700 a= -2.87 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Acetate)2 formula= PuO2(CH3COO)2 charge= 0 ion size= 0.0 A mole wt.= 394.0854 g 2 species in reaction 1.000 PuO2++ 2.000 Acetate- * log10 K(298 K) = -4.7700 a= -4.77 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Acetate)3- formula= PuO2(CH3COO)3- charge= -1 ion size= 0.0 A mole wt.= 453.1291 g 2 species in reaction 1.000 PuO2++ 3.000 Acetate- * log10 K(298 K) = -6.1900 a= -6.19 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(CO3) charge= 0 ion size= 0.0 A mole wt.= 336.0060 g 2 species in reaction 1.000 PuO2++ 1.000 CO3-- * log10 K(298 K) = -9.5000 a= -9.5 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 396.0140 g 2 species in reaction 1.000 PuO2++ 2.000 CO3-- * log10 K(298 K) = -14.7000 a= -14.70001292 b= 0 c= 0 d= -1410.31 e= 0 f= 0 PuO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 456.0220 g 2 species in reaction 1.000 PuO2++ 3.000 CO3-- * log10 K(298 K) = -18.0000 a= -18.00003502 b= 0 c= 0 d= -2016.22 e= 0 f= 0 PuO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 456.0220 g 2 species in reaction 1.000 PuO2+ 3.000 CO3-- * log10 K(298 K) = -5.0300 a= -5.030002187 b= 0 c= 0 d= -998.183 e= 0 f= 0 PuO2(CO3)6(UO2)2------ charge= -6 ion size= 0.0 A mole wt.= 1176.0998 g 3 species in reaction 2.000 UO2++ 1.000 PuO2++ 6.000 CO3-- * log10 K(298 K) = -53.4800 a= -53.48 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(HPO4)- charge= -1 ion size= 0.0 A mole wt.= 371.9757 g 3 species in reaction 1.000 PuO2+ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.8600 a= 4.86 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Nta)- formula= PuO2N(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 464.1121 g 2 species in reaction 1.000 PuO2++ 1.000 Nta--- * log10 K(298 K) = -11.0000 a= -11 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Nta)-- formula= PuO2N(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 464.1121 g 2 species in reaction 1.000 PuO2+ 1.000 Nta--- * log10 K(298 K) = -7.5000 a= -7.5 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(OH)+ charge= 1 ion size= 0.0 A mole wt.= 293.0049 g 3 species in reaction 1.000 PuO2++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 5.5000 a= 5.500001196 b= 0 c= 0 d= 1462.54 e= 0 f= 0 PuO2(OH)2 charge= 0 ion size= 0.0 A mole wt.= 310.0118 g 3 species in reaction 1.000 PuO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 13.2000 a= 13.2 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(OSi(OH)3)+ charge= 1 ion size= 0.0 A mole wt.= 371.1032 g 3 species in reaction 1.000 PuO2++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 3.6400 a= 3.64 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Ox) formula= PuO2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 364.0160 g 2 species in reaction 1.000 PuO2++ 1.000 Ox-- * log10 K(298 K) = -7.0000 a= -7 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Ox)2-- formula= PuO2((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 452.0340 g 2 species in reaction 1.000 PuO2++ 2.000 Ox-- * log10 K(298 K) = -10.5000 a= -10.5 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(Phthalat) formula= PuO2C6H4(COO)2 charge= 0 ion size= 0.0 A mole wt.= 440.1136 g 2 species in reaction 1.000 PuO2++ 1.000 Phthalat-- * log10 K(298 K) = -5.7600 a= -5.76 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(SO4) charge= 0 ion size= 0.0 A mole wt.= 372.0600 g 2 species in reaction 1.000 PuO2++ 1.000 SO4-- * log10 K(298 K) = -3.3800 a= -3.379996339 b= 0 c= 0 d= 840.96 e= 0 f= 0 PuO2(SO4)- charge= -1 ion size= 0.0 A mole wt.= 372.0600 g 2 species in reaction 1.000 PuO2+ 1.000 SO4-- * log10 K(298 K) = -0.4400 a= -0.44 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 468.1220 g 2 species in reaction 1.000 PuO2++ 2.000 SO4-- * log10 K(298 K) = -4.4000 a= -4.400044927 b= 0 c= 0 d= 2246.04 e= 0 f= 0 PuO2Cl+ charge= 1 ion size= 0.0 A mole wt.= 311.4507 g 2 species in reaction 1.000 PuO2++ 1.000 Cl- * log10 K(298 K) = -0.2300 a= -0.2299998977 b= 0 c= 0 d= 218.702 e= 0 f= 0 PuO2Cl2 charge= 0 ion size= 0.0 A mole wt.= 346.9034 g 2 species in reaction 1.000 PuO2++ 2.000 Cl- * log10 K(298 K) = 1.1500 a= 1.15 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2CO3- charge= -1 ion size= 0.0 A mole wt.= 336.0060 g 2 species in reaction 1.000 PuO2+ 1.000 CO3-- * log10 K(298 K) = -5.1201 a= -5.120056901 b= 0 c= 0 d= 2343.77 e= 0 f= 0 PuO2F charge= 0 ion size= 0.0 A mole wt.= 294.9964 g 2 species in reaction 1.000 PuO2+ 1.000 F- * log10 K(298 K) = -1.2000 a= -1.2 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2F+ charge= 1 ion size= 0.0 A mole wt.= 294.9964 g 2 species in reaction 1.000 PuO2++ 1.000 F- * log10 K(298 K) = -4.5600 a= -4.560000931 b= 0 c= 0 d= -190.861 e= 0 f= 0 PuO2F2 charge= 0 ion size= 0.0 A mole wt.= 313.9948 g 2 species in reaction 1.000 PuO2++ 2.000 F- * log10 K(298 K) = -7.2500 a= -7.249998095 b= 0 c= 0 d= 62.9937 e= 0 f= 0 PuO2F3- charge= -1 ion size= 0.0 A mole wt.= 332.9932 g 2 species in reaction 1.000 PuO2++ 3.000 F- * log10 K(298 K) = -9.5900 a= -9.590014909 b= 0 c= 0 d= 125.308 e= 0 f= 0 PuO2NO3+ charge= 1 ion size= 0.0 A mole wt.= 338.0017 g 2 species in reaction 1.000 PuO2++ 1.000 NO3- * log10 K(298 K) = -0.1000 a= -0.1 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2OH charge= 0 ion size= 0.0 A mole wt.= 293.0049 g 3 species in reaction 1.000 PuO2+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 11.3000 a= 11.30000408 b= 0 c= 0 d= 3751.73 e= 0 f= 0 PuOx+ formula= Pu(COO)2+ charge= 1 ion size= 0.0 A mole wt.= 332.0180 g 2 species in reaction 1.000 Pu+++ 1.000 Ox-- * log10 K(298 K) = -6.4900 a= -6.49 b= 0 c= 0 d= 0 e= 0 f= 0 PuPO4 charge= 0 ion size= 0.0 A mole wt.= 338.9698 g 3 species in reaction 1.000 Pu+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 7.9200 a= 7.92 b= 0 c= 0 d= 0 e= 0 f= 0 Ra(CO3) charge= 0 ion size= 0.0 A mole wt.= 286.0330 g 2 species in reaction 1.000 Ra++ 1.000 CO3-- * log10 K(298 K) = -2.5000 a= -2.499996072 b= 0 c= 0 d= 234.842 e= 0 f= 0 Ra(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 287.0409 g 3 species in reaction 1.000 H+ 1.000 Ra++ 1.000 CO3-- * log10 K(298 K) = -10.9200 a= -10.92 b= 0 c= 0 d= 0 e= 0 f= 0 Ra(OH)+ charge= 1 ion size= 0.0 A mole wt.= 243.0319 g 3 species in reaction -1.000 H+ 1.000 Ra++ 1.000 H2O * log10 K(298 K) = 13.4900 a= 13.49001506 b= 0 c= 0 d= 3155.8 e= 0 f= 0 Ra(OH)2 charge= 0 ion size= 0.0 A mole wt.= 260.0388 g 3 species in reaction -2.000 H+ 1.000 Ra++ 2.000 H2O * log10 K(298 K) = 28.0700 a= 28.07000561 b= 0 c= 0 d= 5860.45 e= 0 f= 0 Ra(SO4) charge= 0 ion size= 0.0 A mole wt.= 322.0870 g 2 species in reaction 1.000 Ra++ 1.000 SO4-- * log10 K(298 K) = -2.7600 a= -2.759998315 b= 0 c= 0 d= 285.822 e= 0 f= 0 RaCl+ charge= 1 ion size= 0.0 A mole wt.= 261.4777 g 2 species in reaction 1.000 Ra++ 1.000 Cl- * log10 K(298 K) = 0.1000 a= 0.09999952608 b= 0 c= 0 d= 129.487 e= 0 f= 0 RaCl2 charge= 0 ion size= 0.0 A mole wt.= 296.9304 g 2 species in reaction 1.000 Ra++ 2.000 Cl- * log10 K(298 K) = 0.1000 a= 0.09999990733 b= 0 c= 0 d= 25.8556 e= 0 f= 0 RaF+ charge= 1 ion size= 0.0 A mole wt.= 245.0234 g 2 species in reaction 1.000 Ra++ 1.000 F- * log10 K(298 K) = -0.4800 a= -0.48 b= 0 c= 0 d= 0 e= 0 f= 0 RbBr charge= 0 ion size= 0.0 A mole wt.= 165.3718 g 2 species in reaction 1.000 Br- 1.000 Rb+ * log10 K(298 K) = 1.2400 a= 1.240001093 b= 0 c= 0 d= 722.704 e= 0 f= 0 RbCl charge= 0 ion size= 0.0 A mole wt.= 120.9205 g 2 species in reaction 1.000 Cl- 1.000 Rb+ * log10 K(298 K) = 1.0100 a= 1.009998754 b= 0 c= 0 d= 688.908 e= 0 f= 0 RbF charge= 0 ion size= 0.0 A mole wt.= 104.4662 g 2 species in reaction 1.000 F- 1.000 Rb+ * log10 K(298 K) = -0.9400 a= -0.9399958192 b= 0 c= 0 d= 100.445 e= 0 f= 0 RbI charge= 0 ion size= 0.0 A mole wt.= 212.3723 g 2 species in reaction 1.000 I- 1.000 Rb+ * log10 K(298 K) = 0.8400 a= 0.8400004219 b= 0 c= 0 d= 364.956 e= 0 f= 0 RbOH charge= 0 ion size= 0.0 A mole wt.= 102.4747 g 3 species in reaction -1.000 H+ 1.000 Rb+ 1.000 H2O * log10 K(298 K) = 14.2600 a= 14.25999988 b= 0 c= 0 d= 3351.2 e= 0 f= 0 S-- charge= -2 ion size= 0.0 A mole wt.= 32.0660 g 2 species in reaction -1.000 H+ 1.000 HS- * log10 K(298 K) = 17.1000 a= 17.09999268 b= 0 c= 0 d= 3827.57 e= 0 f= 0 S2-- charge= -2 ion size= 0.0 A mole wt.= 64.1320 g 3 species in reaction -2.000 H+ -2.000 e- 2.000 HS- * log10 K(298 K) = 10.5400 a= 10.54000839 b= 0 c= 0 d= 3533.08 e= 0 f= 0 S2O5-- charge= -2 ion size= 0.0 A mole wt.= 144.1270 g 3 species in reaction 2.000 H+ 2.000 SO3-- -1.000 H2O * log10 K(298 K) = -12.8500 a= -12.85004793 b= 0 c= 0 d= 136.121 e= 0 f= 0 S2O8-- charge= -2 ion size= 0.0 A mole wt.= 192.1240 g 2 species in reaction -2.000 e- 2.000 SO4-- * log10 K(298 K) = 65.3801 a= 65.38013268 b= 0 c= 0 d= 24757.7 e= 0 f= 0 S3-- charge= -2 ion size= 0.0 A mole wt.= 96.1980 g 3 species in reaction -3.000 H+ -4.000 e- 3.000 HS- * log10 K(298 K) = 6.5100 a= 6.509996886 b= 0 c= 0 d= 3909.16 e= 0 f= 0 S3O6-- charge= -2 ion size= 0.0 A mole wt.= 192.1920 g 4 species in reaction 6.000 H+ 2.000 e- 3.000 SO3-- -3.000 H2O * log10 K(298 K) = -36.8200 a= -36.81995737 b= 0 c= 0 d= -6876.34 e= 0 f= 0 S4-- charge= -2 ion size= 0.0 A mole wt.= 128.2640 g 3 species in reaction -4.000 H+ -6.000 e- 4.000 HS- * log10 K(298 K) = 3.5800 a= 3.579997803 b= 0 c= 0 d= 4607.52 e= 0 f= 0 S4O6-- charge= -2 ion size= 0.0 A mole wt.= 224.2580 g 4 species in reaction 12.000 H+ 6.000 e- 4.000 SO3-- -6.000 H2O * log10 K(298 K) = -90.8001 a= -90.80008943 b= 0 c= 0 d= -21675.8 e= 0 f= 0 S5-- charge= -2 ion size= 0.0 A mole wt.= 160.3300 g 3 species in reaction -5.000 H+ -8.000 e- 5.000 HS- * log10 K(298 K) = 0.8700 a= 0.8699700822 b= 0 c= 0 d= 5371.7 e= 0 f= 0 S5O6-- charge= -2 ion size= 0.0 A mole wt.= 256.3240 g 4 species in reaction 18.000 H+ 10.000 e- 5.000 SO3-- -9.000 H2O * log10 K(298 K) = -115.3899 a= -115.3899455 b= 0 c= 0 d= -30967.9 e= 0 f= 0 Sb(OH)++ charge= 2 ion size= 0.0 A mole wt.= 138.7669 g 3 species in reaction 2.000 H+ 1.000 Sb(OH)3 -2.000 H2O * log10 K(298 K) = -0.7400 a= -0.74 b= 0 c= 0 d= 0 e= 0 f= 0 Sb(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 155.7738 g 3 species in reaction 1.000 H+ 1.000 Sb(OH)3 -1.000 H2O * log10 K(298 K) = -1.3300 a= -1.33 b= 0 c= 0 d= 0 e= 0 f= 0 Sb(OH)4+ charge= 1 ion size= 0.0 A mole wt.= 189.7876 g 3 species in reaction 1.000 H+ 1.000 Sb(OH)5 -1.000 H2O * log10 K(298 K) = 3.2600 a= 3.26 b= 0 c= 0 d= 0 e= 0 f= 0 Sb(OH)4- charge= -1 ion size= 0.0 A mole wt.= 189.7876 g 3 species in reaction -1.000 H+ 1.000 Sb(OH)3 1.000 H2O * log10 K(298 K) = 11.8200 a= 11.82 b= 0 c= 0 d= 0 e= 0 f= 0 Sb(OH)6- charge= -1 ion size= 0.0 A mole wt.= 223.8014 g 3 species in reaction -1.000 H+ 1.000 Sb(OH)5 1.000 H2O * log10 K(298 K) = 2.7200 a= 2.72 b= 0 c= 0 d= 0 e= 0 f= 0 Sb+++ charge= 3 ion size= 0.0 A mole wt.= 121.7600 g 3 species in reaction 3.000 H+ 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = 0.7300 a= 0.73 b= 0 c= 0 d= 0 e= 0 f= 0 Sb12(OH)64---- charge= -4 ion size= 0.0 A mole wt.= 2549.5616 g 3 species in reaction -4.000 H+ 12.000 Sb(OH)5 4.000 H2O * log10 K(298 K) = -20.3400 a= -20.34 b= 0 c= 0 d= 0 e= 0 f= 0 Sb12(OH)65----- charge= -5 ion size= 0.0 A mole wt.= 2566.5685 g 3 species in reaction -5.000 H+ 12.000 Sb(OH)5 5.000 H2O * log10 K(298 K) = -16.7200 a= -16.72 b= 0 c= 0 d= 0 e= 0 f= 0 Sb12(OH)66------ charge= -6 ion size= 0.0 A mole wt.= 2583.5754 g 3 species in reaction -6.000 H+ 12.000 Sb(OH)5 6.000 H2O * log10 K(298 K) = -11.8900 a= -11.89 b= 0 c= 0 d= 0 e= 0 f= 0 Sb12(OH)67------- charge= -7 ion size= 0.0 A mole wt.= 2600.5823 g 3 species in reaction -7.000 H+ 12.000 Sb(OH)5 7.000 H2O * log10 K(298 K) = -6.0700 a= -6.07 b= 0 c= 0 d= 0 e= 0 f= 0 Sb2H2S4 charge= 0 ion size= 0.0 A mole wt.= 373.7998 g 4 species in reaction 4.000 H+ 4.000 HS- 2.000 Sb(OH)3 -6.000 H2O * log10 K(298 K) = -57.8100 a= -57.81 b= 0 c= 0 d= 0 e= 0 f= 0 Sb2HS4- charge= -1 ion size= 0.0 A mole wt.= 372.7919 g 4 species in reaction 3.000 H+ 4.000 HS- 2.000 Sb(OH)3 -6.000 H2O * log10 K(298 K) = -52.9000 a= -52.9 b= 0 c= 0 d= 0 e= 0 f= 0 Sb2S4-- charge= -2 ion size= 0.0 A mole wt.= 371.7840 g 4 species in reaction 2.000 H+ 4.000 HS- 2.000 Sb(OH)3 -6.000 H2O * log10 K(298 K) = -43.3800 a= -43.38 b= 0 c= 0 d= 0 e= 0 f= 0 SbCl++ charge= 2 ion size= 0.0 A mole wt.= 157.2127 g 4 species in reaction 3.000 H+ 1.000 Cl- 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -2.8000 a= -2.8 b= 0 c= 0 d= 0 e= 0 f= 0 SbCl2+ charge= 1 ion size= 0.0 A mole wt.= 192.6654 g 4 species in reaction 3.000 H+ 2.000 Cl- 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -3.2700 a= -3.27 b= 0 c= 0 d= 0 e= 0 f= 0 SbF++ charge= 2 ion size= 0.0 A mole wt.= 140.7584 g 4 species in reaction 3.000 H+ 1.000 F- 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -6.3700 a= -6.37 b= 0 c= 0 d= 0 e= 0 f= 0 SbF2+ charge= 1 ion size= 0.0 A mole wt.= 159.7568 g 4 species in reaction 3.000 H+ 2.000 F- 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -12.4200 a= -12.42 b= 0 c= 0 d= 0 e= 0 f= 0 SbF3 charge= 0 ion size= 0.0 A mole wt.= 178.7552 g 4 species in reaction 3.000 H+ 3.000 F- 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -18.2000 a= -18.2 b= 0 c= 0 d= 0 e= 0 f= 0 Se-- charge= -2 ion size= 0.0 A mole wt.= 78.9600 g 2 species in reaction -1.000 H+ 1.000 HSe- * log10 K(298 K) = 14.9100 a= 14.91 b= 0 c= 0 d= 0 e= 0 f= 0 Se2-- charge= -2 ion size= 0.0 A mole wt.= 157.9200 g 3 species in reaction -2.000 H+ -2.000 e- 2.000 HSe- * log10 K(298 K) = 4.5000 a= 4.5 b= 0 c= 0 d= 0 e= 0 f= 0 Se3-- charge= -2 ion size= 0.0 A mole wt.= 236.8800 g 3 species in reaction -3.000 H+ -4.000 e- 3.000 HSe- * log10 K(298 K) = -5.2400 a= -5.24 b= 0 c= 0 d= 0 e= 0 f= 0 Se4-- charge= -2 ion size= 0.0 A mole wt.= 315.8400 g 3 species in reaction -4.000 H+ -6.000 e- 4.000 HSe- * log10 K(298 K) = -13.3800 a= -13.38 b= 0 c= 0 d= 0 e= 0 f= 0 SeCn- formula= SeCN- charge= -1 ion size= 0.0 A mole wt.= 104.9777 g 4 species in reaction -1.000 H+ -2.000 e- 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -13.0300 a= -13.03 b= 0 c= 0 d= 0 e= 0 f= 0 Si2O2(OH)5- charge= -1 ion size= 0.0 A mole wt.= 173.2035 g 3 species in reaction -1.000 H+ 2.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 8.5000 a= 8.5 b= 0 c= 0 d= 0 e= 0 f= 0 Si2O3(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 172.1956 g 3 species in reaction -2.000 H+ 2.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 19.4000 a= 19.4 b= 0 c= 0 d= 0 e= 0 f= 0 Si3O5(OH)5--- charge= -3 ion size= 0.0 A mole wt.= 249.2860 g 3 species in reaction -3.000 H+ 3.000 H4(SiO4) -2.000 H2O * log10 K(298 K) = 29.4000 a= 29.4 b= 0 c= 0 d= 0 e= 0 f= 0 Si3O6(OH)3--- charge= -3 ion size= 0.0 A mole wt.= 231.2712 g 3 species in reaction -3.000 H+ 3.000 H4(SiO4) -3.000 H2O * log10 K(298 K) = 29.3000 a= 29.3 b= 0 c= 0 d= 0 e= 0 f= 0 Si4O6(OH)6-- charge= -2 ion size= 0.0 A mole wt.= 310.3774 g 3 species in reaction -2.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 15.6000 a= 15.6 b= 0 c= 0 d= 0 e= 0 f= 0 Si4O7(OH)6---- charge= -4 ion size= 0.0 A mole wt.= 326.3764 g 3 species in reaction -4.000 H+ 4.000 H4(SiO4) -3.000 H2O * log10 K(298 K) = 39.1000 a= 39.1 b= 0 c= 0 d= 0 e= 0 f= 0 Si4O8(OH)4---- charge= -4 ion size= 0.0 A mole wt.= 308.3616 g 3 species in reaction -4.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 39.2000 a= 39.2 b= 0 c= 0 d= 0 e= 0 f= 0 Si6O15------ charge= -6 ion size= 0.0 A mole wt.= 408.4980 g 3 species in reaction -6.000 H+ 6.000 H4(SiO4) -9.000 H2O * log10 K(298 K) = 61.8000 a= 61.8 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(CO3)+ charge= 1 ion size= 0.0 A mole wt.= 210.3680 g 2 species in reaction 1.000 Sm+++ 1.000 CO3-- * log10 K(298 K) = -7.8001 a= -7.80006101 b= 0 c= 0 d= 8533.81 e= 0 f= 0 Sm(CO3)2- charge= -1 ion size= 0.0 A mole wt.= 270.3760 g 2 species in reaction 1.000 Sm+++ 2.000 CO3-- * log10 K(298 K) = -12.8000 a= -12.8 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(CO3)3--- charge= -3 ion size= 0.0 A mole wt.= 330.3840 g 2 species in reaction 1.000 Sm+++ 3.000 CO3-- * log10 K(298 K) = -14.8000 a= -14.8 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(H2PO4)++ charge= 2 ion size= 0.0 A mole wt.= 247.3456 g 2 species in reaction 1.000 Sm+++ 1.000 H2(PO4)- * log10 K(298 K) = -2.3500 a= -2.35 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(HCO3)++ charge= 2 ion size= 0.0 A mole wt.= 211.3759 g 3 species in reaction 1.000 Sm+++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -12.4300 a= -12.43 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(HPO4)+ charge= 1 ion size= 0.0 A mole wt.= 246.3377 g 3 species in reaction 1.000 Sm+++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 1.6100 a= 1.61 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(HPO4)2- charge= -1 ion size= 0.0 A mole wt.= 342.3154 g 3 species in reaction 1.000 Sm+++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 5.0200 a= 5.02 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(NO3)++ charge= 2 ion size= 0.0 A mole wt.= 212.3637 g 2 species in reaction 1.000 Sm+++ 1.000 NO3- * log10 K(298 K) = -0.9000 a= -0.9 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(OH)++ charge= 2 ion size= 0.0 A mole wt.= 167.3669 g 3 species in reaction 1.000 Sm+++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 7.9000 a= 7.900015682 b= 0 c= 0 d= 4247.22 e= 0 f= 0 Sm(OH)2+ charge= 1 ion size= 0.0 A mole wt.= 184.3738 g 3 species in reaction 1.000 Sm+++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 15.7000 a= 15.69998704 b= 0 c= 0 d= 7610.74 e= 0 f= 0 Sm(OH)3 charge= 0 ion size= 0.0 A mole wt.= 201.3807 g 3 species in reaction 1.000 Sm+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 26.2002 a= 26.20015767 b= 0 c= 0 d= 11930.4 e= 0 f= 0 Sm(OH)4- charge= -1 ion size= 0.0 A mole wt.= 218.3876 g 3 species in reaction 1.000 Sm+++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 40.7000 a= 40.70002973 b= 0 c= 0 d= 15597.1 e= 0 f= 0 Sm(PO4) charge= 0 ion size= 0.0 A mole wt.= 245.3298 g 3 species in reaction 1.000 Sm+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 7.4600 a= 7.46 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(PO4)2--- charge= -3 ion size= 0.0 A mole wt.= 340.2996 g 3 species in reaction 1.000 Sm+++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 18.7200 a= 18.72 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(SO4)+ charge= 1 ion size= 0.0 A mole wt.= 246.4220 g 2 species in reaction 1.000 Sm+++ 1.000 SO4-- * log10 K(298 K) = -3.5000 a= -3.50000345 b= 0 c= 0 d= 866.241 e= 0 f= 0 Sm(SO4)2- charge= -1 ion size= 0.0 A mole wt.= 342.4840 g 2 species in reaction 1.000 Sm+++ 2.000 SO4-- * log10 K(298 K) = -5.2000 a= -5.199986369 b= 0 c= 0 d= 1301.56 e= 0 f= 0 SmBr++ charge= 2 ion size= 0.0 A mole wt.= 230.2640 g 2 species in reaction 1.000 Sm+++ 1.000 Br- * log10 K(298 K) = -0.2300 a= -0.2300024987 b= 0 c= 0 d= 889.172 e= 0 f= 0 SmCl++ charge= 2 ion size= 0.0 A mole wt.= 185.8127 g 2 species in reaction 1.000 Sm+++ 1.000 Cl- * log10 K(298 K) = -0.7200 a= -0.7199929364 b= 0 c= 0 d= 1163.61 e= 0 f= 0 SmF++ charge= 2 ion size= 0.0 A mole wt.= 169.3584 g 2 species in reaction 1.000 Sm+++ 1.000 F- * log10 K(298 K) = -4.2100 a= -4.209993703 b= 0 c= 0 d= 1263.01 e= 0 f= 0 SmF2+ charge= 1 ion size= 0.0 A mole wt.= 188.3568 g 2 species in reaction 1.000 Sm+++ 2.000 F- * log10 K(298 K) = -6.4300 a= -6.429995356 b= 0 c= 0 d= 984.603 e= 0 f= 0 SmSiO(OH)3++ charge= 2 ion size= 0.0 A mole wt.= 245.4652 g 3 species in reaction 1.000 Sm+++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 2.6200 a= 2.62 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Cit)- formula= SnCOOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 307.8085 g 2 species in reaction 1.000 Sn++ 1.000 Cit--- * log10 K(298 K) = -8.7000 a= -8.7 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Cit)2---- formula= Sn(COOCH2COHCOOCH2COO)2---- charge= -4 ion size= 0.0 A mole wt.= 496.9070 g 2 species in reaction 1.000 Sn++ 2.000 Cit--- * log10 K(298 K) = -11.9000 a= -11.9 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Edta)-- formula= Sn(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 406.9202 g 2 species in reaction 1.000 Sn++ 1.000 Edta---- * log10 K(298 K) = -24.6000 a= -24.6 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(H2Edta) formula= SnH2(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 408.9360 g 3 species in reaction 1.000 Sn++ 2.000 H+ 1.000 Edta---- * log10 K(298 K) = -24.3000 a= -24.3 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(HEdta)- formula= SnH(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 407.9281 g 3 species in reaction 1.000 Sn++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -23.4000 a= -23.4 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Nta)- formula= SnN(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 306.8241 g 2 species in reaction 1.000 Sn++ 1.000 Nta--- * log10 K(298 K) = -13.4000 a= -13.4 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)+ charge= 1 ion size= 0.0 A mole wt.= 135.7169 g 3 species in reaction 1.000 Sn++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 3.5300 a= 3.530001102 b= 0 c= 0 d= 972.119 e= 0 f= 0 Sn(OH)2 charge= 0 ion size= 0.0 A mole wt.= 152.7238 g 3 species in reaction 1.000 Sn++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 7.6800 a= 7.679985552 b= 0 c= 0 d= 2129.14 e= 0 f= 0 Sn(OH)3- charge= -1 ion size= 0.0 A mole wt.= 169.7307 g 3 species in reaction 1.000 Sn++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 16.4300 a= 16.4300032 b= 0 c= 0 d= 4658.66 e= 0 f= 0 Sn(OH)4 charge= 0 ion size= 0.0 A mole wt.= 186.7376 g 3 species in reaction 1.000 Sn++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = -7.5400 a= -7.53999534 b= 0 c= 0 d= -2570.15 e= 0 f= 0 Sn(OH)5- charge= -1 ion size= 0.0 A mole wt.= 203.7445 g 3 species in reaction 1.000 Sn++++ -5.000 H+ 5.000 H2O * log10 K(298 K) = 1.0600 a= 1.06 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)6-- charge= -2 ion size= 0.0 A mole wt.= 220.7514 g 3 species in reaction 1.000 Sn++++ -6.000 H+ 6.000 H2O * log10 K(298 K) = 11.1300 a= 11.13 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)Cl charge= 0 ion size= 0.0 A mole wt.= 171.1696 g 4 species in reaction 1.000 Sn++ -1.000 H+ 1.000 Cl- 1.000 H2O * log10 K(298 K) = 3.1000 a= 3.1 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Ox) formula= Sn(COO)2 charge= 0 ion size= 0.0 A mole wt.= 206.7280 g 2 species in reaction 1.000 Sn++ 1.000 Ox-- * log10 K(298 K) = -6.5000 a= -6.5 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Ox)2-- formula= Sn((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 294.7460 g 2 species in reaction 1.000 Sn++ 2.000 Ox-- * log10 K(298 K) = -12.9000 a= -12.9 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(Ox)3---- formula= Sn((COO)2)3---- charge= -4 ion size= 0.0 A mole wt.= 382.7640 g 2 species in reaction 1.000 Sn++ 3.000 Ox-- * log10 K(298 K) = -17.1000 a= -17.1 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(SO4) charge= 0 ion size= 0.0 A mole wt.= 214.7720 g 2 species in reaction 1.000 Sn++ 1.000 SO4-- * log10 K(298 K) = -3.4300 a= -3.430002054 b= 0 c= 0 d= 882.747 e= 0 f= 0 Sn3(OH)4++ charge= 2 ion size= 0.0 A mole wt.= 424.1576 g 3 species in reaction 3.000 Sn++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 5.6000 a= 5.6 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr+ charge= 1 ion size= 0.0 A mole wt.= 198.6140 g 2 species in reaction 1.000 Sn++ 1.000 Br- * log10 K(298 K) = -1.3300 a= -1.33 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr2 charge= 0 ion size= 0.0 A mole wt.= 278.5180 g 2 species in reaction 1.000 Sn++ 2.000 Br- * log10 K(298 K) = -1.9700 a= -1.97 b= 0 c= 0 d= 0 e= 0 f= 0 SnBr3- charge= -1 ion size= 0.0 A mole wt.= 358.4220 g 2 species in reaction 1.000 Sn++ 3.000 Br- * log10 K(298 K) = -1.9300 a= -1.93 b= 0 c= 0 d= 0 e= 0 f= 0 SnCl+ charge= 1 ion size= 0.0 A mole wt.= 154.1627 g 2 species in reaction 1.000 Sn++ 1.000 Cl- * log10 K(298 K) = -1.5200 a= -1.519999534 b= 0 c= 0 d= 663.366 e= 0 f= 0 SnCl2 charge= 0 ion size= 0.0 A mole wt.= 189.6154 g 2 species in reaction 1.000 Sn++ 2.000 Cl- * log10 K(298 K) = -2.1700 a= -2.170007089 b= 0 c= 0 d= 1029 e= 0 f= 0 SnCl3- charge= -1 ion size= 0.0 A mole wt.= 225.0681 g 2 species in reaction 1.000 Sn++ 3.000 Cl- * log10 K(298 K) = -2.1300 a= -2.13 b= 0 c= 0 d= 0 e= 0 f= 0 SnCl4-- charge= -2 ion size= 0.0 A mole wt.= 260.5208 g 2 species in reaction 1.000 Sn++ 4.000 Cl- * log10 K(298 K) = -2.0300 a= -2.03 b= 0 c= 0 d= 0 e= 0 f= 0 SnF+ charge= 1 ion size= 0.0 A mole wt.= 137.7084 g 2 species in reaction 1.000 Sn++ 1.000 F- * log10 K(298 K) = -5.2500 a= -5.250003116 b= 0 c= 0 d= -500.398 e= 0 f= 0 SnF2 charge= 0 ion size= 0.0 A mole wt.= 156.7068 g 2 species in reaction 1.000 Sn++ 2.000 F- * log10 K(298 K) = -8.8900 a= -8.890000022 b= 0 c= 0 d= -520.716 e= 0 f= 0 SnF3- charge= -1 ion size= 0.0 A mole wt.= 175.7052 g 2 species in reaction 1.000 Sn++ 3.000 F- * log10 K(298 K) = -11.5000 a= -11.49998556 b= 0 c= 0 d= -233.954 e= 0 f= 0 SnHPO4 charge= 0 ion size= 0.0 A mole wt.= 214.6877 g 3 species in reaction 1.000 Sn++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -2.2900 a= -2.29 b= 0 c= 0 d= 0 e= 0 f= 0 SnI+ charge= 1 ion size= 0.0 A mole wt.= 245.6145 g 2 species in reaction 1.000 Sn++ 1.000 I- * log10 K(298 K) = -1.7400 a= -1.74 b= 0 c= 0 d= 0 e= 0 f= 0 SnI2 charge= 0 ion size= 0.0 A mole wt.= 372.5190 g 2 species in reaction 1.000 Sn++ 2.000 I- * log10 K(298 K) = -2.6900 a= -2.69 b= 0 c= 0 d= 0 e= 0 f= 0 SnPO4- charge= -1 ion size= 0.0 A mole wt.= 213.6798 g 3 species in reaction 1.000 Sn++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 1.5600 a= 1.56 b= 0 c= 0 d= 0 e= 0 f= 0 SO2 charge= 0 ion size= 0.0 A mole wt.= 64.0640 g 3 species in reaction 2.000 H+ 1.000 SO3-- -1.000 H2O * log10 K(298 K) = -9.0300 a= -9.030026446 b= 0 c= 0 d= 1120.41 e= 0 f= 0 Sr(Cit)- formula= SrCOOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 276.7185 g 2 species in reaction 1.000 Sr++ 1.000 Cit--- * log10 K(298 K) = -4.2400 a= -4.24 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Cit)2(OH)----- formula= Sr(COOCH2COHCOOCH2COO)2(OH)----- charge= -5 ion size= 0.0 A mole wt.= 482.8239 g 4 species in reaction 1.000 Sr++ -1.000 H+ 2.000 Cit--- 1.000 H2O * log10 K(298 K) = 1.7800 a= 1.78 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Cit)2---- formula= Sr(COOCH2COHCOOCH2COO)2---- charge= -4 ion size= 0.0 A mole wt.= 465.8170 g 2 species in reaction 1.000 Sr++ 2.000 Cit--- * log10 K(298 K) = -4.8400 a= -4.84 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Cn)+ formula= Sr(CN)+ charge= 1 ion size= 0.0 A mole wt.= 113.6377 g 2 species in reaction 1.000 Sr++ 1.000 Cn- * log10 K(298 K) = -0.7100 a= -0.71 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Cn)2 formula= Sr(CN)2 charge= 0 ion size= 0.0 A mole wt.= 139.6554 g 2 species in reaction 1.000 Sr++ 2.000 Cn- * log10 K(298 K) = -0.2000 a= -0.2 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(CO3) charge= 0 ion size= 0.0 A mole wt.= 147.6280 g 2 species in reaction 1.000 Sr++ 1.000 CO3-- * log10 K(298 K) = -2.8100 a= -2.810009369 b= 0 c= 0 d= 1138.48 e= 0 f= 0 Sr(Edta)-- formula= Sr(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 375.8302 g 2 species in reaction 1.000 Sr++ 1.000 Edta---- * log10 K(298 K) = -10.3000 a= -10.3 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(H2Cit)+ formula= Sr(H2COOCH2COHCOOCH2COO)+ charge= 1 ion size= 0.0 A mole wt.= 278.7343 g 3 species in reaction 1.000 Sr++ 2.000 H+ 1.000 Cit--- * log10 K(298 K) = -12.4600 a= -12.46 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 184.6056 g 2 species in reaction 1.000 Sr++ 1.000 H2(PO4)- * log10 K(298 K) = -0.8300 a= -0.83 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(HCit) formula= Sr(HCOOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 277.7264 g 3 species in reaction 1.000 Sr++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -9.0000 a= -9 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(HCO3)+ charge= 1 ion size= 0.0 A mole wt.= 148.6359 g 3 species in reaction 1.000 Sr++ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -11.5100 a= -11.50998818 b= 0 c= 0 d= 553.519 e= 0 f= 0 Sr(HEdta)- formula= SrH(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 376.8381 g 3 species in reaction 1.000 Sr++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -14.7000 a= -14.7 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(HOx)+ formula= Sr(H(COO)2)+ charge= 1 ion size= 0.0 A mole wt.= 176.6459 g 3 species in reaction 1.000 Sr++ 1.000 H+ 1.000 Ox-- * log10 K(298 K) = -5.8000 a= -5.8 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(HOx)2 formula= Sr(H(COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 265.6718 g 3 species in reaction 1.000 Sr++ 2.000 H+ 2.000 Ox-- * log10 K(298 K) = -10.8000 a= -10.8 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(HPO4) charge= 0 ion size= 0.0 A mole wt.= 183.5977 g 3 species in reaction 1.000 Sr++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 4.7000 a= 4.7 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(IO3)+ charge= 1 ion size= 0.0 A mole wt.= 262.5215 g 2 species in reaction 1.000 Sr++ 1.000 IO3- * log10 K(298 K) = -0.3300 a= -0.33 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(IO3)2 charge= 0 ion size= 0.0 A mole wt.= 437.4230 g 2 species in reaction 1.000 Sr++ 2.000 IO3- * log10 K(298 K) = 0.5500 a= 0.55 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(NH3)++ charge= 2 ion size= 0.0 A mole wt.= 104.6504 g 2 species in reaction 1.000 Sr++ 1.000 NH3 * log10 K(298 K) = 0.5500 a= 0.55 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 149.6237 g 2 species in reaction 1.000 Sr++ 1.000 NO3- * log10 K(298 K) = -0.6000 a= -0.6 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(NO3)2 charge= 0 ion size= 0.0 A mole wt.= 211.6274 g 2 species in reaction 1.000 Sr++ 2.000 NO3- * log10 K(298 K) = -0.3100 a= -0.31 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Nta)- formula= SrN(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 275.7341 g 2 species in reaction 1.000 Sr++ 1.000 Nta--- * log10 K(298 K) = -6.2500 a= -6.25 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(OH)+ charge= 1 ion size= 0.0 A mole wt.= 104.6269 g 3 species in reaction 1.000 Sr++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 13.2900 a= 13.28999905 b= 0 c= 0 d= 4314.91 e= 0 f= 0 Sr(Ox) formula= Sr(COO)2 charge= 0 ion size= 0.0 A mole wt.= 175.6380 g 2 species in reaction 1.000 Sr++ 1.000 Ox-- * log10 K(298 K) = -2.5400 a= -2.54 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Ox)2-- formula= Sr((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 263.6560 g 2 species in reaction 1.000 Sr++ 2.000 Ox-- * log10 K(298 K) = -3.0000 a= -3 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(PO4)- charge= -1 ion size= 0.0 A mole wt.= 182.5898 g 3 species in reaction 1.000 Sr++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 13.5600 a= 13.56 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(Pyrophos)-- formula= SrP2O7-- charge= -2 ion size= 0.0 A mole wt.= 261.5606 g 2 species in reaction 1.000 Sr++ 1.000 Pyrophos---- * log10 K(298 K) = -5.4000 a= -5.4 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(S2O3) charge= 0 ion size= 0.0 A mole wt.= 199.7490 g 2 species in reaction 1.000 Sr++ 1.000 S2O3-- * log10 K(298 K) = -2.0400 a= -2.04 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(SO4) charge= 0 ion size= 0.0 A mole wt.= 183.6820 g 2 species in reaction 1.000 Sr++ 1.000 SO4-- * log10 K(298 K) = -2.3000 a= -2.300002866 b= 0 c= 0 d= 367.15 e= 0 f= 0 Sr2(Cit)(OH) formula= Sr2(COOCH2COHCOOCH2COO)(OH) charge= 0 ion size= 0.0 A mole wt.= 381.3454 g 4 species in reaction 2.000 Sr++ -1.000 H+ 1.000 Cit--- 1.000 H2O * log10 K(298 K) = -0.3800 a= -0.38 b= 0 c= 0 d= 0 e= 0 f= 0 SrB(OH)4+ charge= 1 ion size= 0.0 A mole wt.= 166.4586 g 2 species in reaction 1.000 Sr++ 1.000 B(OH)4- * log10 K(298 K) = -1.5500 a= -1.55 b= 0 c= 0 d= 0 e= 0 f= 0 SrCl+ charge= 1 ion size= 0.0 A mole wt.= 123.0727 g 2 species in reaction 1.000 Sr++ 1.000 Cl- * log10 K(298 K) = -0.2300 a= -0.2300015093 b= 0 c= 0 d= 257.303 e= 0 f= 0 SrF+ charge= 1 ion size= 0.0 A mole wt.= 106.6184 g 2 species in reaction 1.000 Sr++ 1.000 F- * log10 K(298 K) = -0.3000 a= -0.3000015697 b= 0 c= 0 d= 874.39 e= 0 f= 0 SrF2 charge= 0 ion size= 0.0 A mole wt.= 125.6168 g 2 species in reaction 1.000 Sr++ 2.000 F- * log10 K(298 K) = -2.0200 a= -2.02 b= 0 c= 0 d= 0 e= 0 f= 0 SrI+ charge= 1 ion size= 0.0 A mole wt.= 214.5245 g 2 species in reaction 1.000 Sr++ 1.000 I- * log10 K(298 K) = -0.1400 a= -0.14 b= 0 c= 0 d= 0 e= 0 f= 0 SrI2 charge= 0 ion size= 0.0 A mole wt.= 341.4290 g 2 species in reaction 1.000 Sr++ 2.000 I- * log10 K(298 K) = 0.0400 a= 0.04 b= 0 c= 0 d= 0 e= 0 f= 0 Tc(OH)2CO3 charge= 0 ion size= 0.0 A mole wt.= 192.0218 g 4 species in reaction 1.000 TcO(OH)2 2.000 H+ 1.000 CO3-- -1.000 H2O * log10 K(298 K) = -19.2600 a= -19.26 b= 0 c= 0 d= 0 e= 0 f= 0 Tc(OH)3CO3- charge= -1 ion size= 0.0 A mole wt.= 209.0287 g 3 species in reaction 1.000 TcO(OH)2 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -10.9600 a= -10.96 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)(Acetate) formula= TcO(OH)(CH3COO) charge= 0 ion size= 0.0 A mole wt.= 190.0496 g 4 species in reaction 1.000 TcO(OH)2 1.000 H+ -1.000 H2O 1.000 Acetate- * log10 K(298 K) = -5.5500 a= -5.55 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)(Edta)--- formula= TcO(OH)(CH2COO)4N(CH2)2N--- charge= -3 ion size= 0.0 A mole wt.= 419.2161 g 4 species in reaction 1.000 TcO(OH)2 1.000 H+ 1.000 Edta---- -1.000 H2O * log10 K(298 K) = -19.0000 a= -19 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)(Nta)-- formula= TcO(OH)N(CH2COO)3-- charge= -2 ion size= 0.0 A mole wt.= 319.1200 g 4 species in reaction 1.000 TcO(OH)2 1.000 H+ 1.000 Nta--- -1.000 H2O * log10 K(298 K) = -13.3000 a= -13.3 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)(Nta)2----- formula= TcO(OH)(N(CH2COO)3)2----- charge= -5 ion size= 0.0 A mole wt.= 507.2341 g 4 species in reaction 1.000 TcO(OH)2 1.000 H+ 2.000 Nta--- -1.000 H2O * log10 K(298 K) = -11.7000 a= -11.7 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(OH)+ charge= 1 ion size= 0.0 A mole wt.= 131.0059 g 3 species in reaction 1.000 TcO(OH)2 1.000 H+ -1.000 H2O * log10 K(298 K) = -2.7900 a= -2.789996983 b= 0 c= 0 d= 209.979 e= 0 f= 0 TcO(Ox) formula= TcO(COO)2 charge= 0 ion size= 0.0 A mole wt.= 202.0170 g 4 species in reaction 1.000 TcO(OH)2 2.000 H+ 1.000 Ox-- -2.000 H2O * log10 K(298 K) = -9.8000 a= -9.8 b= 0 c= 0 d= 0 e= 0 f= 0 TcO(Ox)2-- formula= TcO((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 290.0350 g 4 species in reaction 1.000 TcO(OH)2 2.000 H+ 2.000 Ox-- -2.000 H2O * log10 K(298 K) = -13.6600 a= -13.66 b= 0 c= 0 d= 0 e= 0 f= 0 TcO++ charge= 2 ion size= 0.0 A mole wt.= 113.9990 g 3 species in reaction 1.000 TcO(OH)2 2.000 H+ -2.000 H2O * log10 K(298 K) = -2.5800 a= -2.58 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Acetate)+++ formula= Th(CH3COO)+++ charge= 3 ion size= 0.0 A mole wt.= 291.0818 g 2 species in reaction 1.000 Th++++ 1.000 Acetate- * log10 K(298 K) = -5.2400 a= -5.24 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Acetate)2++ formula= Th(CH3COO)2++ charge= 2 ion size= 0.0 A mole wt.= 350.1255 g 2 species in reaction 1.000 Th++++ 2.000 Acetate- * log10 K(298 K) = -9.4400 a= -9.44 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Acetate)3+ formula= Th(CH3COO)3+ charge= 1 ion size= 0.0 A mole wt.= 409.1692 g 2 species in reaction 1.000 Th++++ 3.000 Acetate- * log10 K(298 K) = -12.5600 a= -12.56 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Acetate)4 formula= Th(CH3COO)4 charge= 0 ion size= 0.0 A mole wt.= 468.2129 g 2 species in reaction 1.000 Th++++ 4.000 Acetate- * log10 K(298 K) = -14.3800 a= -14.38 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Acetate)5- formula= Th(CH3COO)5- charge= -1 ion size= 0.0 A mole wt.= 527.2566 g 2 species in reaction 1.000 Th++++ 5.000 Acetate- * log10 K(298 K) = -15.3700 a= -15.37 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Cit)+ formula= ThCOOCH2COHCOOCH2COO+ charge= 1 ion size= 0.0 A mole wt.= 421.1366 g 2 species in reaction 1.000 Th++++ 1.000 Cit--- * log10 K(298 K) = -16.8000 a= -16.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Cit)2-- formula= Th(COOCH2COHCOOCH2COO)2-- charge= -2 ion size= 0.0 A mole wt.= 610.2351 g 2 species in reaction 1.000 Th++++ 2.000 Cit--- * log10 K(298 K) = -25.8000 a= -25.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 532.0781 g 2 species in reaction 1.000 Th++++ 5.000 CO3-- * log10 K(298 K) = -31.0000 a= -31 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Edta) formula= Th(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 520.2483 g 2 species in reaction 1.000 Th++++ 1.000 Edta---- * log10 K(298 K) = -26.9500 a= -26.95 b= 0 c= 0 d= 0 e= 0 f= 0 Th(H2PO4)+++ charge= 3 ion size= 0.0 A mole wt.= 329.0237 g 2 species in reaction 1.000 Th++++ 1.000 H2(PO4)- * log10 K(298 K) = -5.5900 a= -5.59 b= 0 c= 0 d= 0 e= 0 f= 0 Th(H2PO4)2++ charge= 2 ion size= 0.0 A mole wt.= 426.0093 g 2 species in reaction 1.000 Th++++ 2.000 H2(PO4)- * log10 K(298 K) = -10.4800 a= -10.48 b= 0 c= 0 d= 0 e= 0 f= 0 Th(H3PO4)(H2PO4)+++ charge= 3 ion size= 0.0 A mole wt.= 427.0172 g 3 species in reaction 1.000 Th++++ 1.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -9.7000 a= -9.7 b= 0 c= 0 d= 0 e= 0 f= 0 Th(H3PO4)++++ charge= 4 ion size= 0.0 A mole wt.= 330.0316 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -4.0300 a= -4.03 b= 0 c= 0 d= 0 e= 0 f= 0 Th(HEdta)+ formula= ThH(CH2COO)4N(CH2)2N+ charge= 1 ion size= 0.0 A mole wt.= 521.2562 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -28.7000 a= -28.7 b= 0 c= 0 d= 0 e= 0 f= 0 Th(HOx)+++ formula= Th(H(COO)2)+++ charge= 3 ion size= 0.0 A mole wt.= 321.0640 g 3 species in reaction 1.000 Th++++ 1.000 H+ 1.000 Ox-- * log10 K(298 K) = -11.0000 a= -11 b= 0 c= 0 d= 0 e= 0 f= 0 Th(HOx)2++ formula= Th(H(COO)2)2++ charge= 2 ion size= 0.0 A mole wt.= 410.0899 g 3 species in reaction 1.000 Th++++ 2.000 H+ 2.000 Ox-- * log10 K(298 K) = -18.1300 a= -18.13 b= 0 c= 0 d= 0 e= 0 f= 0 Th(HOx)4 formula= Th(H(COO)2)4 charge= 0 ion size= 0.0 A mole wt.= 588.1417 g 3 species in reaction 1.000 Th++++ 4.000 H+ 4.000 Ox-- * log10 K(298 K) = -24.3000 a= -24.3 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Malonate)++ formula= ThCH2(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 334.0829 g 2 species in reaction 1.000 Th++++ 1.000 Malonate-- * log10 K(298 K) = -9.3200 a= -9.32 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Malonate)2 formula= Th(CH2(COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 436.1277 g 2 species in reaction 1.000 Th++++ 2.000 Malonate-- * log10 K(298 K) = -16.0700 a= -16.07 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Malonate)3-- formula= Th(CH2(COO)2)3-- charge= -2 ion size= 0.0 A mole wt.= 538.1725 g 2 species in reaction 1.000 Th++++ 3.000 Malonate-- * log10 K(298 K) = -19.6300 a= -19.63 b= 0 c= 0 d= 0 e= 0 f= 0 Th(NO3)+++ charge= 3 ion size= 0.0 A mole wt.= 294.0418 g 2 species in reaction 1.000 Th++++ 1.000 NO3- * log10 K(298 K) = -1.3000 a= -1.3 b= 0 c= 0 d= 0 e= 0 f= 0 Th(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 356.0455 g 2 species in reaction 1.000 Th++++ 2.000 NO3- * log10 K(298 K) = -2.3000 a= -2.3 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Nta)+ formula= ThN(CH2COO)3+ charge= 1 ion size= 0.0 A mole wt.= 420.1522 g 2 species in reaction 1.000 Th++++ 1.000 Nta--- * log10 K(298 K) = -17.1500 a= -17.15 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)(CO3)4----- charge= -5 ion size= 0.0 A mole wt.= 489.0770 g 4 species in reaction 1.000 Th++++ -1.000 H+ 4.000 CO3-- 1.000 H2O * log10 K(298 K) = -21.6000 a= -21.6 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)(Edta)- formula= Th(OH)(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 537.2552 g 4 species in reaction 1.000 Th++++ -1.000 H+ 1.000 Edta---- 1.000 H2O * log10 K(298 K) = -19.5000 a= -19.5 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)(Nta) formula= Th(OH)N(CH2COO)3 charge= 0 ion size= 0.0 A mole wt.= 437.1591 g 4 species in reaction 1.000 Th++++ -1.000 H+ 1.000 Nta--- 1.000 H2O * log10 K(298 K) = -11.2000 a= -11.2 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 249.0450 g 3 species in reaction 1.000 Th++++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 2.5000 a= 2.499984823 b= 0 c= 0 d= 2308.72 e= 0 f= 0 Th(OH)2(CO3) charge= 0 ion size= 0.0 A mole wt.= 326.0599 g 4 species in reaction 1.000 Th++++ -2.000 H+ 1.000 CO3-- 2.000 H2O * log10 K(298 K) = -2.5000 a= -2.5 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 386.0679 g 4 species in reaction 1.000 Th++++ -2.000 H+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -8.8000 a= -8.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)2(Nta)- formula= Th(OH)2N(CH2COO)3- charge= -1 ion size= 0.0 A mole wt.= 454.1660 g 4 species in reaction 1.000 Th++++ -2.000 H+ 1.000 Nta--- 2.000 H2O * log10 K(298 K) = -7.2000 a= -7.2 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 266.0519 g 3 species in reaction 1.000 Th++++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 6.2000 a= 6.200016249 b= 0 c= 0 d= 4476.42 e= 0 f= 0 Th(OH)3(CO3)- charge= -1 ion size= 0.0 A mole wt.= 343.0668 g 4 species in reaction 1.000 Th++++ -3.000 H+ 1.000 CO3-- 3.000 H2O * log10 K(298 K) = 3.7000 a= 3.7 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)3(HGlu) formula= Th(OH)3HOCH2(CHOH)4COO charge= 0 ion size= 0.0 A mole wt.= 478.2047 g 4 species in reaction 1.000 Th++++ -3.000 H+ 1.000 HGlu- 3.000 H2O * log10 K(298 K) = 6.7000 a= 6.7 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)3(HIsa) formula= Th(OH)3(C6H11O6) charge= 0 ion size= 0.0 A mole wt.= 462.2057 g 4 species in reaction 1.000 Th++++ -3.000 H+ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = 5.6500 a= 5.65 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)3(HIsa)2- formula= Th(OH)3(C6H11O6)2- charge= -1 ion size= 0.0 A mole wt.= 641.3526 g 4 species in reaction 1.000 Th++++ -3.000 H+ 2.000 HIsa- 3.000 H2O * log10 K(298 K) = 4.9000 a= 4.9 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 283.0588 g 3 species in reaction 1.000 Th++++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 11.0000 a= 10.9999838 b= 0 c= 0 d= 6561.74 e= 0 f= 0 Th(OH)4 charge= 0 ion size= 0.0 A mole wt.= 300.0657 g 3 species in reaction 1.000 Th++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 17.4000 a= 17.40000683 b= 0 c= 0 d= 7975.44 e= 0 f= 0 Th(OH)4(CO3)-- charge= -2 ion size= 0.0 A mole wt.= 360.0737 g 4 species in reaction 1.000 Th++++ -4.000 H+ 1.000 CO3-- 4.000 H2O * log10 K(298 K) = 15.6000 a= 15.6 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)4(HGlu)- formula= Th(OH)4HOCH2(CHOH)4COO- charge= -1 ion size= 0.0 A mole wt.= 495.2116 g 4 species in reaction 1.000 Th++++ -4.000 H+ 1.000 HGlu- 4.000 H2O * log10 K(298 K) = 11.8000 a= 11.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)4(HGlu)2-- formula= Th(OH)4(HOCH2(CHOH)4COO)2-- charge= -2 ion size= 0.0 A mole wt.= 690.3575 g 4 species in reaction 1.000 Th++++ -4.000 H+ 2.000 HGlu- 4.000 H2O * log10 K(298 K) = 9.9000 a= 9.9 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)4(HIsa)- formula= Th(OH)4(C6H11O6)- charge= -1 ion size= 0.0 A mole wt.= 479.2126 g 4 species in reaction 1.000 Th++++ -4.000 H+ 1.000 HIsa- 4.000 H2O * log10 K(298 K) = 13.2000 a= 13.2 b= 0 c= 0 d= 0 e= 0 f= 0 Th(OH)4(HIsa)2-- formula= Th(OH)4(C6H11O6)2-- charge= -2 ion size= 0.0 A mole wt.= 658.3595 g 4 species in reaction 1.000 Th++++ -4.000 H+ 2.000 HIsa- 4.000 H2O * log10 K(298 K) = 10.4000 a= 10.4 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Ox)++ formula= Th(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 320.0561 g 2 species in reaction 1.000 Th++++ 1.000 Ox-- * log10 K(298 K) = -9.7000 a= -9.7 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Ox)2 formula= Th((COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 408.0741 g 2 species in reaction 1.000 Th++++ 2.000 Ox-- * log10 K(298 K) = -16.0000 a= -16 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Ox)3-- formula= Th((COO)2)3-- charge= -2 ion size= 0.0 A mole wt.= 496.0921 g 2 species in reaction 1.000 Th++++ 3.000 Ox-- * log10 K(298 K) = -22.2000 a= -22.2 b= 0 c= 0 d= 0 e= 0 f= 0 Th(SO4)++ charge= 2 ion size= 0.0 A mole wt.= 328.1001 g 2 species in reaction 1.000 Th++++ 1.000 SO4-- * log10 K(298 K) = -6.1700 a= -6.169985621 b= 0 c= 0 d= 1092.73 e= 0 f= 0 Th(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 424.1621 g 2 species in reaction 1.000 Th++++ 2.000 SO4-- * log10 K(298 K) = -9.6900 a= -9.690042076 b= 0 c= 0 d= 2109.19 e= 0 f= 0 Th(SO4)3-- charge= -2 ion size= 0.0 A mole wt.= 520.2241 g 2 species in reaction 1.000 Th++++ 3.000 SO4-- * log10 K(298 K) = -10.7500 a= -10.75 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Succinat)++ formula= Th(CH2)2(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 348.1097 g 2 species in reaction 1.000 Th++++ 1.000 Succinat-- * log10 K(298 K) = -8.4900 a= -8.49 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Succinat)2 formula= Th((CH2)2(COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 464.1813 g 2 species in reaction 1.000 Th++++ 2.000 Succinat-- * log10 K(298 K) = -12.9200 a= -12.92 b= 0 c= 0 d= 0 e= 0 f= 0 Th(Succinat)3-- formula= Th((CH2)2(COO)2)3-- charge= -2 ion size= 0.0 A mole wt.= 580.2529 g 2 species in reaction 1.000 Th++++ 3.000 Succinat-- * log10 K(298 K) = -16.6200 a= -16.62 b= 0 c= 0 d= 0 e= 0 f= 0 Th2(OH)2++++++ charge= 6 ion size= 0.0 A mole wt.= 498.0900 g 3 species in reaction 2.000 Th++++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 5.9000 a= 5.900007927 b= 0 c= 0 d= 3045.22 e= 0 f= 0 Th2(OH)3+++++ charge= 5 ion size= 0.0 A mole wt.= 515.0969 g 3 species in reaction 2.000 Th++++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 6.8000 a= 6.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th2(Ox)(OH)+++++ formula= Th2(COO)2(OH)+++++ charge= 5 ion size= 0.0 A mole wt.= 569.1011 g 4 species in reaction 2.000 Th++++ -1.000 H+ 1.000 Ox-- 1.000 H2O * log10 K(298 K) = -26.2400 a= -26.24 b= 0 c= 0 d= 0 e= 0 f= 0 Th4(OH)12++++ charge= 4 ion size= 0.0 A mole wt.= 1132.2352 g 3 species in reaction 4.000 Th++++ -12.000 H+ 12.000 H2O * log10 K(298 K) = 26.6000 a= 26.6 b= 0 c= 0 d= 0 e= 0 f= 0 Th4(OH)8++++++++ charge= 8 ion size= 0.0 A mole wt.= 1064.2076 g 3 species in reaction 4.000 Th++++ -8.000 H+ 8.000 H2O * log10 K(298 K) = 20.4002 a= 20.4001598 b= 0 c= 0 d= 12692.8 e= 0 f= 0 Th6(OH)14++++++++++ charge= 10 ion size= 0.0 A mole wt.= 1630.3252 g 3 species in reaction 6.000 Th++++ -14.000 H+ 14.000 H2O * log10 K(298 K) = 36.8000 a= 36.8 b= 0 c= 0 d= 0 e= 0 f= 0 Th6(OH)15+++++++++ charge= 9 ion size= 0.0 A mole wt.= 1647.3321 g 3 species in reaction 6.000 Th++++ -15.000 H+ 15.000 H2O * log10 K(298 K) = 36.7999 a= 36.79988987 b= 0 c= 0 d= 24696 e= 0 f= 0 ThCl+++ charge= 3 ion size= 0.0 A mole wt.= 267.4908 g 2 species in reaction 1.000 Th++++ 1.000 Cl- * log10 K(298 K) = -1.7000 a= -1.7 b= 0 c= 0 d= 0 e= 0 f= 0 ThF+++ charge= 3 ion size= 0.0 A mole wt.= 251.0365 g 2 species in reaction 1.000 Th++++ 1.000 F- * log10 K(298 K) = -8.8700 a= -8.869996807 b= 0 c= 0 d= -20.8934 e= 0 f= 0 ThF2++ charge= 2 ion size= 0.0 A mole wt.= 270.0349 g 2 species in reaction 1.000 Th++++ 2.000 F- * log10 K(298 K) = -15.6300 a= -15.63003517 b= 0 c= 0 d= -172.371 e= 0 f= 0 ThF3+ charge= 1 ion size= 0.0 A mole wt.= 289.0333 g 2 species in reaction 1.000 Th++++ 3.000 F- * log10 K(298 K) = -20.6700 a= -20.67 b= 0 c= 0 d= 0 e= 0 f= 0 ThF4 charge= 0 ion size= 0.0 A mole wt.= 308.0317 g 2 species in reaction 1.000 Th++++ 4.000 F- * log10 K(298 K) = -25.5800 a= -25.58 b= 0 c= 0 d= 0 e= 0 f= 0 U(Acetate)+++ formula= U(CH3COO)+++ charge= 3 ion size= 0.0 A mole wt.= 297.0726 g 2 species in reaction 1.000 U++++ 1.000 Acetate- * log10 K(298 K) = -5.6400 a= -5.64 b= 0 c= 0 d= 0 e= 0 f= 0 U(Acetate)2++ formula= U(CH3COO)2++ charge= 2 ion size= 0.0 A mole wt.= 356.1163 g 2 species in reaction 1.000 U++++ 2.000 Acetate- * log10 K(298 K) = -9.8100 a= -9.81 b= 0 c= 0 d= 0 e= 0 f= 0 U(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 478.0609 g 2 species in reaction 1.000 U++++ 4.000 CO3-- * log10 K(298 K) = -35.1200 a= -35.12 b= 0 c= 0 d= 0 e= 0 f= 0 U(CO3)5------ charge= -6 ion size= 0.0 A mole wt.= 538.0689 g 2 species in reaction 1.000 U++++ 5.000 CO3-- * log10 K(298 K) = -34.0000 a= -34.00004035 b= 0 c= 0 d= -1044.67 e= 0 f= 0 U(Edta) formula= U(CH2COO)4N(CH2)2N charge= 0 ion size= 0.0 A mole wt.= 526.2391 g 2 species in reaction 1.000 U++++ 1.000 Edta---- * log10 K(298 K) = -29.5000 a= -29.5 b= 0 c= 0 d= 0 e= 0 f= 0 U(NO3)+++ charge= 3 ion size= 0.0 A mole wt.= 300.0326 g 2 species in reaction 1.000 U++++ 1.000 NO3- * log10 K(298 K) = -1.4700 a= -1.47 b= 0 c= 0 d= 0 e= 0 f= 0 U(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 362.0363 g 2 species in reaction 1.000 U++++ 2.000 NO3- * log10 K(298 K) = -2.3000 a= -2.3 b= 0 c= 0 d= 0 e= 0 f= 0 U(Nta)+ formula= UN(CH2COO)3+ charge= 1 ion size= 0.0 A mole wt.= 426.1430 g 2 species in reaction 1.000 U++++ 1.000 Nta--- * log10 K(298 K) = -20.0000 a= -20 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)(Edta)- formula= U(OH)(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 543.2460 g 4 species in reaction 1.000 U++++ -1.000 H+ 1.000 Edta---- 1.000 H2O * log10 K(298 K) = -24.6000 a= -24.6 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 255.0358 g 3 species in reaction 1.000 U++++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 0.5400 a= 0.5400093896 b= 0 c= 0 d= 2450.28 e= 0 f= 0 U(OH)2(Edta)-- formula= U(OH)2(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 560.2529 g 4 species in reaction 1.000 U++++ -2.000 H+ 1.000 Edta---- 2.000 H2O * log10 K(298 K) = -16.5000 a= -16.5 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 272.0427 g 3 species in reaction 1.000 U++++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 1.1000 a= 1.099997795 b= 0 c= 0 d= 3132.08 e= 0 f= 0 U(OH)3(HGlu) formula= U(OH)3HOCH2(CHOH)4COO charge= 0 ion size= 0.0 A mole wt.= 484.1955 g 4 species in reaction 1.000 U++++ -3.000 H+ 1.000 HGlu- 3.000 H2O * log10 K(298 K) = -0.2900 a= -0.29 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)3(HIsa) formula= U(OH)3(C6H11O6) charge= 0 ion size= 0.0 A mole wt.= 468.1965 g 4 species in reaction 1.000 U++++ -3.000 H+ 1.000 HIsa- 3.000 H2O * log10 K(298 K) = -0.2900 a= -0.29 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)3(HIsa)2- formula= U(OH)3(C6H11O6)2- charge= -1 ion size= 0.0 A mole wt.= 647.3434 g 4 species in reaction 1.000 U++++ -3.000 H+ 2.000 HIsa- 3.000 H2O * log10 K(298 K) = -2.4000 a= -2.4 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 289.0496 g 3 species in reaction 1.000 U++++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 4.7000 a= 4.700016641 b= 0 c= 0 d= 4332.36 e= 0 f= 0 U(OH)4 charge= 0 ion size= 0.0 A mole wt.= 306.0565 g 3 species in reaction 1.000 U++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 10.0000 a= 9.999994917 b= 0 c= 0 d= 5738.9 e= 0 f= 0 U(OH)4(HGlu)- formula= U(OH)4HOCH2(CHOH)4COO- charge= -1 ion size= 0.0 A mole wt.= 501.2024 g 4 species in reaction 1.000 U++++ -4.000 H+ 1.000 HGlu- 4.000 H2O * log10 K(298 K) = 5.9400 a= 5.94 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)4(HIsa)- formula= U(OH)4(C6H11O6)- charge= -1 ion size= 0.0 A mole wt.= 485.2034 g 4 species in reaction 1.000 U++++ -4.000 H+ 1.000 HIsa- 4.000 H2O * log10 K(298 K) = 6.7000 a= 6.7 b= 0 c= 0 d= 0 e= 0 f= 0 U(OH)4(HIsa)2-- formula= U(OH)4(C6H11O6)2-- charge= -2 ion size= 0.0 A mole wt.= 664.3503 g 4 species in reaction 1.000 U++++ -4.000 H+ 2.000 HIsa- 4.000 H2O * log10 K(298 K) = 5.1000 a= 5.1 b= 0 c= 0 d= 0 e= 0 f= 0 U(Ox)2 formula= U((COO)2)2 charge= 0 ion size= 0.0 A mole wt.= 414.0649 g 2 species in reaction 1.000 U++++ 2.000 Ox-- * log10 K(298 K) = -18.6300 a= -18.63 b= 0 c= 0 d= 0 e= 0 f= 0 U(Ox)3-- formula= U((COO)2)3-- charge= -2 ion size= 0.0 A mole wt.= 502.0829 g 2 species in reaction 1.000 U++++ 3.000 Ox-- * log10 K(298 K) = -24.1900 a= -24.19 b= 0 c= 0 d= 0 e= 0 f= 0 U(SO4)++ charge= 2 ion size= 0.0 A mole wt.= 334.0909 g 2 species in reaction 1.000 U++++ 1.000 SO4-- * log10 K(298 K) = -6.5800 a= -6.58000386 b= 0 c= 0 d= 417.868 e= 0 f= 0 U(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 430.1529 g 2 species in reaction 1.000 U++++ 2.000 SO4-- * log10 K(298 K) = -10.5100 a= -10.51000577 b= 0 c= 0 d= 1708.04 e= 0 f= 0 UBr+++ charge= 3 ion size= 0.0 A mole wt.= 317.9329 g 2 species in reaction 1.000 U++++ 1.000 Br- * log10 K(298 K) = -1.4600 a= -1.46 b= 0 c= 0 d= 0 e= 0 f= 0 UCl+++ charge= 3 ion size= 0.0 A mole wt.= 273.4816 g 2 species in reaction 1.000 U++++ 1.000 Cl- * log10 K(298 K) = -1.7200 a= -1.720003362 b= 0 c= 0 d= -992.438 e= 0 f= 0 UF+++ charge= 3 ion size= 0.0 A mole wt.= 257.0273 g 2 species in reaction 1.000 U++++ 1.000 F- * log10 K(298 K) = -9.4200 a= -9.419996639 b= 0 c= 0 d= -292.508 e= 0 f= 0 UF2++ charge= 2 ion size= 0.0 A mole wt.= 276.0257 g 2 species in reaction 1.000 U++++ 2.000 F- * log10 K(298 K) = -16.5600 a= -16.55997122 b= 0 c= 0 d= -182.817 e= 0 f= 0 UF3+ charge= 1 ion size= 0.0 A mole wt.= 295.0241 g 2 species in reaction 1.000 U++++ 3.000 F- * log10 K(298 K) = -21.8900 a= -21.89000382 b= 0 c= 0 d= 26.1168 e= 0 f= 0 UF4 charge= 0 ion size= 0.0 A mole wt.= 314.0225 g 2 species in reaction 1.000 U++++ 4.000 F- * log10 K(298 K) = -26.3400 a= -26.3399707 b= 0 c= 0 d= -440.329 e= 0 f= 0 UF5- charge= -1 ion size= 0.0 A mole wt.= 333.0209 g 2 species in reaction 1.000 U++++ 5.000 F- * log10 K(298 K) = -27.7300 a= -27.73003765 b= 0 c= 0 d= -607.79 e= 0 f= 0 UF6-- charge= -2 ion size= 0.0 A mole wt.= 352.0193 g 2 species in reaction 1.000 U++++ 6.000 F- * log10 K(298 K) = -29.8000 a= -29.8 b= 0 c= 0 d= 0 e= 0 f= 0 UI+++ charge= 3 ion size= 0.0 A mole wt.= 364.9334 g 2 species in reaction 1.000 U++++ 1.000 I- * log10 K(298 K) = -1.2500 a= -1.25 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Acetate)+ formula= UO2(CH3COO)+ charge= 1 ion size= 0.0 A mole wt.= 329.0706 g 2 species in reaction 1.000 UO2++ 1.000 Acetate- * log10 K(298 K) = -3.0200 a= -3.019999444 b= 0 c= 0 d= -830.2 e= 0 f= 0 UO2(Acetate)2 formula= UO2(CH3COO)2 charge= 0 ion size= 0.0 A mole wt.= 388.1143 g 2 species in reaction 1.000 UO2++ 2.000 Acetate- * log10 K(298 K) = -5.2000 a= -5.199998154 b= 0 c= 0 d= -1825.04 e= 0 f= 0 UO2(Acetate)3- formula= UO2(CH3COO)3- charge= -1 ion size= 0.0 A mole wt.= 447.1580 g 2 species in reaction 1.000 UO2++ 3.000 Acetate- * log10 K(298 K) = -7.0300 a= -7.030006534 b= 0 c= 0 d= -3419.21 e= 0 f= 0 UO2(Cit)- formula= UO2COOCH2COHCOOCH2COO- charge= -1 ion size= 0.0 A mole wt.= 459.1254 g 2 species in reaction 1.000 UO2++ 1.000 Cit--- * log10 K(298 K) = -8.9600 a= -8.96 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(CO3) charge= 0 ion size= 0.0 A mole wt.= 330.0349 g 2 species in reaction 1.000 UO2++ 1.000 CO3-- * log10 K(298 K) = -9.9400 a= -9.940038236 b= 0 c= 0 d= 261.168 e= 0 f= 0 UO2(CO3)2-- charge= -2 ion size= 0.0 A mole wt.= 390.0429 g 2 species in reaction 1.000 UO2++ 2.000 CO3-- * log10 K(298 K) = -16.6100 a= -16.61004348 b= 0 c= 0 d= 966.321 e= 0 f= 0 UO2(CO3)3---- charge= -4 ion size= 0.0 A mole wt.= 450.0509 g 2 species in reaction 1.000 UO2++ 3.000 CO3-- * log10 K(298 K) = -21.8400 a= -21.84004989 b= 0 c= 0 d= -2047.56 e= 0 f= 0 UO2(CO3)3----- charge= -5 ion size= 0.0 A mole wt.= 450.0509 g 2 species in reaction 1.000 UO2+ 3.000 CO3-- * log10 K(298 K) = -6.9500 a= -6.95 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Edta)-- formula= UO2(CH2COO)4N(CH2)2N-- charge= -2 ion size= 0.0 A mole wt.= 558.2371 g 2 species in reaction 1.000 UO2++ 1.000 Edta---- * log10 K(298 K) = -13.7000 a= -13.7 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2AsO4)+ charge= 1 ion size= 0.0 A mole wt.= 410.9603 g 3 species in reaction 1.000 UO2++ 2.000 H+ 1.000 AsO4--- * log10 K(298 K) = -21.9600 a= -21.96 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2AsO4)2 charge= 0 ion size= 0.0 A mole wt.= 551.8937 g 3 species in reaction 1.000 UO2++ 4.000 H+ 2.000 AsO4--- * log10 K(298 K) = -41.5300 a= -41.53 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2PO4)(H3PO4)+ charge= 1 ion size= 0.0 A mole wt.= 465.0060 g 3 species in reaction 1.000 UO2++ 1.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -5.9300 a= -5.93 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(H2PO4)+ charge= 1 ion size= 0.0 A mole wt.= 367.0125 g 2 species in reaction 1.000 UO2++ 1.000 H2(PO4)- * log10 K(298 K) = -3.2600 a= -3.260000271 b= 0 c= 0 d= -801.263 e= 0 f= 0 UO2(H2PO4)2 charge= 0 ion size= 0.0 A mole wt.= 463.9981 g 2 species in reaction 1.000 UO2++ 2.000 H2(PO4)- * log10 K(298 K) = -4.9200 a= -4.920005668 b= 0 c= 0 d= -2709.41 e= 0 f= 0 UO2(H3PO4)++ charge= 2 ion size= 0.0 A mole wt.= 368.0204 g 3 species in reaction 1.000 UO2++ 1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -2.9000 a= -2.9 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HAsO4) charge= 0 ion size= 0.0 A mole wt.= 409.9524 g 3 species in reaction 1.000 UO2++ 1.000 H+ 1.000 AsO4--- * log10 K(298 K) = -18.7600 a= -18.76 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HCit) formula= UO2(HCOOCH2COHCOOCH2COO) charge= 0 ion size= 0.0 A mole wt.= 460.1333 g 3 species in reaction 1.000 UO2++ 1.000 H+ 1.000 Cit--- * log10 K(298 K) = -11.3600 a= -11.36 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HEdta)- formula= UO2H(CH2COO)4N(CH2)2N- charge= -1 ion size= 0.0 A mole wt.= 559.2450 g 3 species in reaction 1.000 UO2++ 1.000 H+ 1.000 Edta---- * log10 K(298 K) = -19.6100 a= -19.61 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HIsa)+ formula= UO2(C6H11O6)+ charge= 1 ion size= 0.0 A mole wt.= 449.1738 g 2 species in reaction 1.000 UO2++ 1.000 HIsa- * log10 K(298 K) = -3.7000 a= -3.7 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HIsa)2 formula= UO2(C6H11O6)2 charge= 0 ion size= 0.0 A mole wt.= 628.3207 g 2 species in reaction 1.000 UO2++ 2.000 HIsa- * log10 K(298 K) = -6.6000 a= -6.6 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HIsa)3- formula= UO2(C6H11O6)3- charge= -1 ion size= 0.0 A mole wt.= 807.4676 g 2 species in reaction 1.000 UO2++ 3.000 HIsa- * log10 K(298 K) = -8.5000 a= -8.5 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HNta) formula= UO2(HN(CH2COO)3) charge= 0 ion size= 0.0 A mole wt.= 459.1489 g 3 species in reaction 1.000 UO2++ 1.000 H+ 1.000 Nta--- * log10 K(298 K) = -9.0000 a= -9 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HPO4) charge= 0 ion size= 0.0 A mole wt.= 366.0046 g 3 species in reaction 1.000 UO2++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -0.0300 a= -0.03000004696 b= 0 c= 0 d= 145.366 e= 0 f= 0 UO2(IO3)2 charge= 0 ion size= 0.0 A mole wt.= 619.8299 g 5 species in reaction 1.000 UO2++ -12.000 H+ -12.000 e- 2.000 I- 6.000 H2O * log10 K(298 K) = 219.5400 a= 219.54 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(NO3)+ charge= 1 ion size= 0.0 A mole wt.= 332.0306 g 2 species in reaction 1.000 UO2++ 1.000 NO3- * log10 K(298 K) = -0.1000 a= -0.09999995807 b= 0 c= 0 d= 203.711 e= 0 f= 0 UO2(Nta)- formula= UO2(N(CH2COO)3)- charge= -1 ion size= 0.0 A mole wt.= 458.1410 g 2 species in reaction 1.000 UO2++ 1.000 Nta--- * log10 K(298 K) = -10.8000 a= -10.8 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(OH)(Ox)- formula= UO2(OH)(COO)2- charge= -1 ion size= 0.0 A mole wt.= 375.0518 g 4 species in reaction 1.000 UO2++ -1.000 H+ 1.000 Ox-- 1.000 H2O * log10 K(298 K) = -0.6300 a= -0.63 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(OH)+ charge= 1 ion size= 0.0 A mole wt.= 287.0338 g 3 species in reaction 1.000 UO2++ -1.000 H+ 1.000 H2O * log10 K(298 K) = 5.2500 a= 5.250016686 b= 0 c= 0 d= 2269.97 e= 0 f= 0 UO2(OH)2 charge= 0 ion size= 0.0 A mole wt.= 304.0407 g 3 species in reaction 1.000 UO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 12.1500 a= 12.14998854 b= 0 c= 0 d= 5806.28 e= 0 f= 0 UO2(OH)3- charge= -1 ion size= 0.0 A mole wt.= 321.0476 g 3 species in reaction 1.000 UO2++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 20.2500 a= 20.2499969 b= 0 c= 0 d= 7733.7 e= 0 f= 0 UO2(OH)4(HIsa)--- formula= UO2(OH)4(C6H11O6)--- charge= -3 ion size= 0.0 A mole wt.= 517.2014 g 4 species in reaction 1.000 UO2++ -4.000 H+ 1.000 HIsa- 4.000 H2O * log10 K(298 K) = 28.1000 a= 28.1 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(OH)4-- charge= -2 ion size= 0.0 A mole wt.= 338.0545 g 3 species in reaction 1.000 UO2++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 32.4000 a= 32.3999906 b= 0 c= 0 d= 8155.64 e= 0 f= 0 UO2(Ox) formula= UO2(COO)2 charge= 0 ion size= 0.0 A mole wt.= 358.0449 g 2 species in reaction 1.000 UO2++ 1.000 Ox-- * log10 K(298 K) = -7.1300 a= -7.13003567 b= 0 c= 0 d= 1324.64 e= 0 f= 0 UO2(Ox)2-- formula= UO2((COO)2)2-- charge= -2 ion size= 0.0 A mole wt.= 446.0629 g 2 species in reaction 1.000 UO2++ 2.000 Ox-- * log10 K(298 K) = -11.6500 a= -11.65 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Ox)3---- formula= UO2((COO)2)3---- charge= -4 ion size= 0.0 A mole wt.= 534.0809 g 2 species in reaction 1.000 UO2++ 3.000 Ox-- * log10 K(298 K) = -13.8000 a= -13.8 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Phthalat) formula= UO2C6H4(COO)2 charge= 0 ion size= 0.0 A mole wt.= 434.1425 g 2 species in reaction 1.000 UO2++ 1.000 Phthalat-- * log10 K(298 K) = -5.5600 a= -5.56 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(PO4)- charge= -1 ion size= 0.0 A mole wt.= 364.9967 g 3 species in reaction 1.000 UO2++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 6.3300 a= 6.33 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(S2O3) charge= 0 ion size= 0.0 A mole wt.= 382.1559 g 2 species in reaction 1.000 UO2++ 1.000 S2O3-- * log10 K(298 K) = -2.8000 a= -2.8 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(SeO4) charge= 0 ion size= 0.0 A mole wt.= 412.9829 g 2 species in reaction 1.000 UO2++ 1.000 SeO4-- * log10 K(298 K) = -2.7400 a= -2.74 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(SeO4)2-- charge= -2 ion size= 0.0 A mole wt.= 555.9389 g 2 species in reaction 1.000 UO2++ 2.000 SeO4-- * log10 K(298 K) = -3.1000 a= -3.1 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(SO3) charge= 0 ion size= 0.0 A mole wt.= 350.0899 g 2 species in reaction 1.000 UO2++ 1.000 SO3-- * log10 K(298 K) = -6.6000 a= -6.6 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(SO4) charge= 0 ion size= 0.0 A mole wt.= 366.0889 g 2 species in reaction 1.000 UO2++ 1.000 SO4-- * log10 K(298 K) = -3.1500 a= -3.15001656 b= 0 c= 0 d= 1018.55 e= 0 f= 0 UO2(SO4)2-- charge= -2 ion size= 0.0 A mole wt.= 462.1509 g 2 species in reaction 1.000 UO2++ 2.000 SO4-- * log10 K(298 K) = -4.1399 a= -4.139946269 b= 0 c= 0 d= 1833.4 e= 0 f= 0 UO2(SO4)3---- charge= -4 ion size= 0.0 A mole wt.= 558.2129 g 2 species in reaction 1.000 UO2++ 3.000 SO4-- * log10 K(298 K) = -3.0200 a= -3.02 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(Succinat) formula= UO2((CH2)2(COO)2) charge= 0 ion size= 0.0 A mole wt.= 386.0985 g 2 species in reaction 1.000 UO2++ 1.000 Succinat-- * log10 K(298 K) = -5.2800 a= -5.28 b= 0 c= 0 d= 0 e= 0 f= 0 UO2Br+ charge= 1 ion size= 0.0 A mole wt.= 349.9309 g 2 species in reaction 1.000 UO2++ 1.000 Br- * log10 K(298 K) = -0.2200 a= -0.22 b= 0 c= 0 d= 0 e= 0 f= 0 UO2BrO3+ charge= 1 ion size= 0.0 A mole wt.= 397.9279 g 5 species in reaction 1.000 UO2++ -6.000 H+ -6.000 e- 1.000 Br- 3.000 H2O * log10 K(298 K) = 145.5400 a= 145.540039 b= 0 c= 0 d= 47652.7 e= 0 f= 0 UO2Cl+ charge= 1 ion size= 0.0 A mole wt.= 305.4796 g 2 species in reaction 1.000 UO2++ 1.000 Cl- * log10 K(298 K) = -0.1700 a= -0.1700038605 b= 0 c= 0 d= 417.868 e= 0 f= 0 UO2Cl2 charge= 0 ion size= 0.0 A mole wt.= 340.9323 g 2 species in reaction 1.000 UO2++ 2.000 Cl- * log10 K(298 K) = 1.1000 a= 1.100001939 b= 0 c= 0 d= 783.503 e= 0 f= 0 UO2ClO3+ charge= 1 ion size= 0.0 A mole wt.= 353.4766 g 5 species in reaction 1.000 UO2++ -6.000 H+ -6.000 e- 1.000 Cl- 3.000 H2O * log10 K(298 K) = 145.7398 a= 145.7398255 b= 0 c= 0 d= 47880.9 e= 0 f= 0 UO2F+ charge= 1 ion size= 0.0 A mole wt.= 289.0253 g 2 species in reaction 1.000 UO2++ 1.000 F- * log10 K(298 K) = -5.1600 a= -5.160003067 b= 0 c= 0 d= 88.7971 e= 0 f= 0 UO2F2 charge= 0 ion size= 0.0 A mole wt.= 308.0237 g 2 species in reaction 1.000 UO2++ 2.000 F- * log10 K(298 K) = -8.8300 a= -8.829997937 b= 0 c= 0 d= 109.69 e= 0 f= 0 UO2F3- charge= -1 ion size= 0.0 A mole wt.= 327.0221 g 2 species in reaction 1.000 UO2++ 3.000 F- * log10 K(298 K) = -10.9000 a= -10.89999784 b= 0 c= 0 d= 122.749 e= 0 f= 0 UO2F4-- charge= -2 ion size= 0.0 A mole wt.= 346.0205 g 2 species in reaction 1.000 UO2++ 4.000 F- * log10 K(298 K) = -11.8400 a= -11.83999437 b= 0 c= 0 d= 15.1477 e= 0 f= 0 UO2IO3+ charge= 1 ion size= 0.0 A mole wt.= 444.9284 g 5 species in reaction 1.000 UO2++ -6.000 H+ -6.000 e- 1.000 I- 3.000 H2O * log10 K(298 K) = 109.5602 a= 109.5602019 b= 0 c= 0 d= 36791.8 e= 0 f= 0 UO2SiO(OH)3+ charge= 1 ion size= 0.0 A mole wt.= 365.1321 g 3 species in reaction 1.000 UO2++ -1.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 1.8400 a= 1.84 b= 0 c= 0 d= 0 e= 0 f= 0 UOx++ formula= U(COO)2++ charge= 2 ion size= 0.0 A mole wt.= 326.0469 g 2 species in reaction 1.000 U++++ 1.000 Ox-- * log10 K(298 K) = -10.6700 a= -10.67 b= 0 c= 0 d= 0 e= 0 f= 0 Zn(SeCn)+ formula= Zn(SeCN)+ charge= 1 ion size= 0.0 A mole wt.= 170.3677 g 5 species in reaction 1.000 Zn++ -1.000 H+ -2.000 e- 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -14.2400 a= -14.24 b= 0 c= 0 d= 0 e= 0 f= 0 Zn(SeCn)2 formula= Zn(SeCN)2 charge= 0 ion size= 0.0 A mole wt.= 275.3454 g 5 species in reaction 1.000 Zn++ -2.000 H+ -4.000 e- 2.000 Cn- 2.000 HSe- * log10 K(298 K) = -27.7300 a= -27.73 b= 0 c= 0 d= 0 e= 0 f= 0 Zn(SeO4) charge= 0 ion size= 0.0 A mole wt.= 208.3460 g 2 species in reaction 1.000 Zn++ 1.000 SeO4-- * log10 K(298 K) = -2.1600 a= -2.159997055 b= 0 c= 0 d= 240.274 e= 0 f= 0 Zr(CO3)4---- charge= -4 ion size= 0.0 A mole wt.= 331.2520 g 2 species in reaction 4.000 CO3-- 1.000 Zr++++ * log10 K(298 K) = -42.9000 a= -42.9 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(NO3)2++ charge= 2 ion size= 0.0 A mole wt.= 215.2274 g 2 species in reaction 2.000 NO3- 1.000 Zr++++ * log10 K(298 K) = -2.6400 a= -2.64 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)+++ charge= 3 ion size= 0.0 A mole wt.= 108.2269 g 3 species in reaction -1.000 H+ 1.000 Zr++++ 1.000 H2O * log10 K(298 K) = -0.3200 a= -0.32 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)2++ charge= 2 ion size= 0.0 A mole wt.= 125.2338 g 3 species in reaction -2.000 H+ 1.000 Zr++++ 2.000 H2O * log10 K(298 K) = -0.9800 a= -0.98 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)4 charge= 0 ion size= 0.0 A mole wt.= 159.2476 g 3 species in reaction -4.000 H+ 1.000 Zr++++ 4.000 H2O * log10 K(298 K) = 2.1900 a= 2.19 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)6-- charge= -2 ion size= 0.0 A mole wt.= 193.2614 g 3 species in reaction -6.000 H+ 1.000 Zr++++ 6.000 H2O * log10 K(298 K) = 29.0000 a= 29 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(SO4)2 charge= 0 ion size= 0.0 A mole wt.= 283.3440 g 2 species in reaction 2.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = -11.5400 a= -11.54003916 b= 0 c= 0 d= 3519.5 e= 0 f= 0 Zr(SO4)3-- charge= -2 ion size= 0.0 A mole wt.= 379.4060 g 2 species in reaction 3.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = -14.3000 a= -14.3 b= 0 c= 0 d= 0 e= 0 f= 0 Zr3(OH)4++++++++ charge= 8 ion size= 0.0 A mole wt.= 341.6876 g 3 species in reaction -4.000 H+ 3.000 Zr++++ 4.000 H2O * log10 K(298 K) = -0.4000 a= -0.3999984877 b= 0 c= 0 d= -103.422 e= 0 f= 0 Zr4(OH)15+ charge= 1 ion size= 0.0 A mole wt.= 619.9835 g 3 species in reaction -15.000 H+ 4.000 Zr++++ 15.000 H2O * log10 K(298 K) = -12.5800 a= -12.58 b= 0 c= 0 d= 0 e= 0 f= 0 Zr4(OH)16 charge= 0 ion size= 0.0 A mole wt.= 636.9904 g 3 species in reaction -16.000 H+ 4.000 Zr++++ 16.000 H2O * log10 K(298 K) = -8.3899 a= -8.389917105 b= 0 c= 0 d= 15728.6 e= 0 f= 0 ZrCl+++ charge= 3 ion size= 0.0 A mole wt.= 126.6727 g 2 species in reaction 1.000 Cl- 1.000 Zr++++ * log10 K(298 K) = -1.5900 a= -1.59 b= 0 c= 0 d= 0 e= 0 f= 0 ZrCl2++ charge= 2 ion size= 0.0 A mole wt.= 162.1254 g 2 species in reaction 2.000 Cl- 1.000 Zr++++ * log10 K(298 K) = -2.1700 a= -2.17 b= 0 c= 0 d= 0 e= 0 f= 0 ZrF+++ charge= 3 ion size= 0.0 A mole wt.= 110.2184 g 2 species in reaction 1.000 F- 1.000 Zr++++ * log10 K(298 K) = -10.1200 a= -10.12000282 b= 0 c= 0 d= -914.087 e= 0 f= 0 ZrF2++ charge= 2 ion size= 0.0 A mole wt.= 129.2168 g 2 species in reaction 2.000 F- 1.000 Zr++++ * log10 K(298 K) = -18.5500 a= -18.55002992 b= 0 c= 0 d= -877.524 e= 0 f= 0 ZrF3+ charge= 1 ion size= 0.0 A mole wt.= 148.2152 g 2 species in reaction 3.000 F- 1.000 Zr++++ * log10 K(298 K) = -24.7200 a= -24.71995328 b= 0 c= 0 d= -585.016 e= 0 f= 0 ZrF4 charge= 0 ion size= 0.0 A mole wt.= 167.2136 g 2 species in reaction 4.000 F- 1.000 Zr++++ * log10 K(298 K) = -30.1100 a= -30.11003445 b= 0 c= 0 d= -1149.14 e= 0 f= 0 ZrF5- charge= -1 ion size= 0.0 A mole wt.= 186.2120 g 2 species in reaction 5.000 F- 1.000 Zr++++ * log10 K(298 K) = -34.6000 a= -34.6 b= 0 c= 0 d= 0 e= 0 f= 0 ZrF6-- charge= -2 ion size= 0.0 A mole wt.= 205.2104 g 2 species in reaction 6.000 F- 1.000 Zr++++ * log10 K(298 K) = -38.1100 a= -38.11 b= 0 c= 0 d= 0 e= 0 f= 0 ZrNO3+++ charge= 3 ion size= 0.0 A mole wt.= 153.2237 g 2 species in reaction 1.000 NO3- 1.000 Zr++++ * log10 K(298 K) = -1.5900 a= -1.59 b= 0 c= 0 d= 0 e= 0 f= 0 ZrSO4++ charge= 2 ion size= 0.0 A mole wt.= 187.2820 g 2 species in reaction 1.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = -7.0400 a= -7.039991749 b= 0 c= 0 d= 1929.51 e= 0 f= 0 -end- 1 free electron e- charge= -1 ion size= 0.0 A mole wt.= 0.0000 g 3 species in reaction -.250 O2(aq) -1.000 H+ .500 H2O * log10 K(298 K) = 21.4975 a= 21.49747108 b= 0 c= 0 d= 7306.5 e= 0 f= 0 -end- 860 minerals (UO2)2(As2O7)(cr) type= formula= (UO2)2(As2O7) mole vol.= 0.0000 cc mole wt.= 801.8900 g 4 species in reaction 2.000 UO2++ 2.000 H+ 2.000 AsO4--- -1.000 H2O * log10 K(298 K) = -29.0100 a= -29.00995123 b= 0 c= 0 d= 5351.33 e= 0 f= 0 (UO2)3(AsO4)2(cr) type= formula= (UO2)3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 1087.9159 g 2 species in reaction 3.000 UO2++ 2.000 AsO4--- * log10 K(298 K) = -27.4001 a= -27.40005905 b= 0 c= 0 d= 7515.36 e= 0 f= 0 (UO2)3(PO4)2(cr) type= formula= (UO2)3(PO4)2 mole vol.= 0.0000 cc mole wt.= 1000.0203 g 3 species in reaction 3.000 UO2++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 2.8000 a= 2.799965588 b= 0 c= 0 d= 8926.72 e= 0 f= 0 (UO2)3(PO4)2:4H2O(cr) type= formula= (UO2)3(PO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 1072.0795 g 4 species in reaction 3.000 UO2++ -4.000 H+ 2.000 H2(PO4)- 4.000 H2O * log10 K(298 K) = -14.1500 a= -14.15 b= 0 c= 0 d= 0 e= 0 f= 0 (UO2)3(PO4)2:6H2O(s) type= formula= (UO2)3(PO4)2:6H2O mole vol.= 0.0000 cc mole wt.= 1108.1091 g 4 species in reaction 3.000 UO2++ -4.000 H+ 2.000 H2(PO4)- 6.000 H2O * log10 K(298 K) = -10.2000 a= -10.20003383 b= 0 c= 0 d= 2547.95 e= 0 f= 0 Acanthite type= formula= Ag2S mole vol.= 0.0000 cc mole wt.= 247.8024 g 3 species in reaction 2.000 Ag+ -1.000 H+ 1.000 HS- * log10 K(298 K) = -36.0699 a= -36.06988455 b= 0 c= 0 d= -11740.4 e= 0 f= 0 Acmite type= formula= NaFeSi2O6 mole vol.= 64.6000 cc mole wt.= 231.0018 g 5 species in reaction 1.000 Na+ 1.000 Fe+++ -4.000 H+ 2.000 H4(SiO4) -2.000 H2O * log10 K(298 K) = 0.9100 a= 0.9099862418 b= 0 c= 0 d= 2902.51 e= 0 f= 0 Afwillite type= formula= Ca3Si2O4(OH)6 mole vol.= 129.5300 cc mole wt.= 342.4424 g 4 species in reaction 3.000 Ca++ -6.000 H+ 2.000 H4(SiO4) 2.000 H2O * log10 K(298 K) = 49.4199 a= 49.41987692 b= 0 c= 0 d= 14062.7 e= 0 f= 0 Ag(OH)(s) type= formula= Ag(OH) mole vol.= 0.0000 cc mole wt.= 124.8751 g 3 species in reaction 1.000 Ag+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 6.3000 a= 6.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(SeCn)(cr) type= formula= Ag(SeCN) mole vol.= 0.0000 cc mole wt.= 212.8459 g 5 species in reaction 1.000 Ag+ -1.000 H+ -2.000 e- 1.000 Cn- 1.000 HSe- * log10 K(298 K) = -27.0300 a= -27.03 b= 0 c= 0 d= 0 e= 0 f= 0 Ag(cr) type= formula= Ag mole vol.= 0.0000 cc mole wt.= 107.8682 g 2 species in reaction 1.000 Ag+ 1.000 e- * log10 K(298 K) = -13.5100 a= -13.51000047 b= 0 c= 0 d= -5525.79 e= 0 f= 0 Ag2(CO3)(s) type= formula= Ag2(CO3) mole vol.= 0.0000 cc mole wt.= 275.7444 g 2 species in reaction 2.000 Ag+ 1.000 CO3-- * log10 K(298 K) = -11.0500 a= -11.0499959 b= 0 c= 0 d= -2197.57 e= 0 f= 0 Ag2(MoO4)(s) type= formula= Ag2(MoO4) mole vol.= 0.0000 cc mole wt.= 375.6724 g 2 species in reaction 2.000 Ag+ 1.000 MoO4-- * log10 K(298 K) = -11.4600 a= -11.46000607 b= 0 c= 0 d= -2889.77 e= 0 f= 0 Ag2(SO4)(s) type= formula= Ag2(SO4) mole vol.= 0.0000 cc mole wt.= 311.7984 g 2 species in reaction 2.000 Ag+ 1.000 SO4-- * log10 K(298 K) = -5.0100 a= -5.009995764 b= 0 c= 0 d= -948.718 e= 0 f= 0 Ag2(SeO3)(s) type= formula= Ag2(SeO3) mole vol.= 0.0000 cc mole wt.= 342.6934 g 2 species in reaction 2.000 Ag+ 1.000 SeO3-- * log10 K(298 K) = -15.8000 a= -15.80000603 b= 0 c= 0 d= -3544.57 e= 0 f= 0 Ag2(SeO4)(s) type= formula= Ag2(SeO4) mole vol.= 0.0000 cc mole wt.= 358.6924 g 2 species in reaction 2.000 Ag+ 1.000 SeO4-- * log10 K(298 K) = -7.8600 a= -7.85998454 b= 0 c= 0 d= -1597.82 e= 0 f= 0 Ag2Se(alfa) type= formula= Ag2Se mole vol.= 0.0000 cc mole wt.= 294.6964 g 3 species in reaction 2.000 Ag+ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -42.8500 a= -42.85000675 b= 0 c= 0 d= -13894.6 e= 0 f= 0 Ag3(PO4)(s) type= formula= Ag3(PO4) mole vol.= 0.0000 cc mole wt.= 418.5744 g 3 species in reaction 3.000 Ag+ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 2.0100 a= 2.01 b= 0 c= 0 d= 0 e= 0 f= 0 AgBr(s) type= formula= AgBr mole vol.= 0.0000 cc mole wt.= 187.7722 g 2 species in reaction 1.000 Ag+ 1.000 Br- * log10 K(298 K) = -12.2900 a= -12.28999389 b= 0 c= 0 d= -4425.54 e= 0 f= 0 AgCl(cr) type= formula= AgCl mole vol.= 0.0000 cc mole wt.= 143.3209 g 2 species in reaction 1.000 Ag+ 1.000 Cl- * log10 K(298 K) = -9.7500 a= -9.750004077 b= 0 c= 0 d= -3432.79 e= 0 f= 0 AgI(s) type= formula= AgI mole vol.= 0.0000 cc mole wt.= 234.7727 g 2 species in reaction 1.000 Ag+ 1.000 I- * log10 K(298 K) = -16.0400 a= -16.04000748 b= 0 c= 0 d= -5785.6 e= 0 f= 0 Al(PO4)(cr) type= formula= Al(PO4) mole vol.= 0.0000 cc mole wt.= 121.9513 g 3 species in reaction 1.000 Al+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -3.6200 a= -3.620000922 b= 0 c= 0 d= 950.651 e= 0 f= 0 Al(PO4):2H2O(s) type= formula= Al(PO4):2H2O mole vol.= 0.0000 cc mole wt.= 157.9809 g 4 species in reaction 1.000 Al+++ -2.000 H+ 1.000 H2(PO4)- 2.000 H2O * log10 K(298 K) = -2.5100 a= -2.51 b= 0 c= 0 d= 0 e= 0 f= 0 Al(cr) type= formula= Al mole vol.= 0.0000 cc mole wt.= 26.9815 g 2 species in reaction 1.000 Al+++ 3.000 e- * log10 K(298 K) = 85.4298 a= 85.42983718 b= 0 c= 0 d= 28122.5 e= 0 f= 0 Al2(OH)(PO4)2(s) type= formula= Al2(OH)(PO4)2 mole vol.= 0.0000 cc mole wt.= 260.9095 g 5 species in reaction 2.000 Al+++ -5.000 H+ -1.000 e- 2.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -15.8800 a= -15.88 b= 0 c= 0 d= 0 e= 0 f= 0 Alabandite type= formula= MnS mole vol.= 0.0000 cc mole wt.= 87.0040 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 HS- * log10 K(298 K) = 0.9000 a= 0.9 b= 0 c= 0 d= 0 e= 0 f= 0 Alamosite type= formula= PbSiO3 mole vol.= 0.0000 cc mole wt.= 283.2825 g 4 species in reaction 1.000 Pb++ -2.000 H+ 1.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 6.1700 a= 6.169994102 b= 0 c= 0 d= 1538.33 e= 0 f= 0 Albite-high type= formula= NaAlSi3O8 mole vol.= 0.0000 cc mole wt.= 262.2198 g 5 species in reaction 1.000 Na+ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 4.1400 a= 4.140038806 b= 0 c= 0 d= 4994.68 e= 0 f= 0 Albite-low type= formula= NaAlSi3O8 mole vol.= 0.0000 cc mole wt.= 262.2198 g 5 species in reaction 1.000 Na+ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 2.7400 a= 2.740032869 b= 0 c= 0 d= 4325.57 e= 0 f= 0 Am(CO3)(OH)(am) type= formula= Am(CO3)(OH) mole vol.= 0.0000 cc mole wt.= 320.0149 g 4 species in reaction -1.000 H+ 1.000 Am+++ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -6.2000 a= -6.2 b= 0 c= 0 d= 0 e= 0 f= 0 Am(CO3)(OH)(cr) type= formula= Am(CO3)(OH) mole vol.= 0.0000 cc mole wt.= 320.0149 g 4 species in reaction -1.000 H+ 1.000 Am+++ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -11.5100 a= -11.51004364 b= 0 c= 0 d= 1319.42 e= 0 f= 0 Am(CO3)(OH):0.5H2O(cr) type= formula= Am(CO3)(OH):0.5H2O mole vol.= 0.0000 cc mole wt.= 329.0223 g 4 species in reaction -1.000 H+ 1.000 Am+++ 1.000 CO3-- 1.500 H2O * log10 K(298 K) = -8.4000 a= -8.400023092 b= 0 c= 0 d= 1973.12 e= 0 f= 0 Am(CO3)2Na:5H2O(s) type= formula= Am(CO3)2Na:5H2O mole vol.= 0.0000 cc mole wt.= 476.0798 g 4 species in reaction 1.000 Na+ 1.000 Am+++ 2.000 CO3-- 5.000 H2O * log10 K(298 K) = -21.0000 a= -21 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)3(am) type= formula= Am(OH)3 mole vol.= 0.0000 cc mole wt.= 294.0207 g 3 species in reaction -3.000 H+ 1.000 Am+++ 3.000 H2O * log10 K(298 K) = 16.9000 a= 16.9 b= 0 c= 0 d= 0 e= 0 f= 0 Am(OH)3(cr) type= formula= Am(OH)3 mole vol.= 0.0000 cc mole wt.= 294.0207 g 3 species in reaction -3.000 H+ 1.000 Am+++ 3.000 H2O * log10 K(298 K) = 15.6000 a= 15.59998722 b= 0 c= 0 d= 6319.84 e= 0 f= 0 Am(PO4):xH2O(am) type= formula= Am(PO4) mole vol.= 0.0000 cc mole wt.= 337.9698 g 3 species in reaction -2.000 H+ 1.000 Am+++ 1.000 H2(PO4)- * log10 K(298 K) = -5.2300 a= -5.23 b= 0 c= 0 d= 0 e= 0 f= 0 Am(cr) type= formula= Am mole vol.= 0.0000 cc mole wt.= 243.0000 g 2 species in reaction 1.000 Am+++ 3.000 e- * log10 K(298 K) = 104.8899 a= 104.889879 b= 0 c= 0 d= 32212.4 e= 0 f= 0 Am2(CO3)3(cr) type= formula= Am2(CO3)3 mole vol.= 0.0000 cc mole wt.= 666.0240 g 2 species in reaction 2.000 Am+++ 3.000 CO3-- * log10 K(298 K) = -33.4000 a= -33.4 b= 0 c= 0 d= 0 e= 0 f= 0 Am2O3(cr) type= formula= Am2O3 mole vol.= 0.0000 cc mole wt.= 533.9970 g 3 species in reaction -6.000 H+ 2.000 Am+++ 3.000 H2O * log10 K(298 K) = 53.1500 a= 53.1499698 b= 0 c= 0 d= 20919 e= 0 f= 0 AmBr3(cr) type= formula= AmBr3 mole vol.= 0.0000 cc mole wt.= 482.7120 g 2 species in reaction 1.000 Am+++ 3.000 Br- * log10 K(298 K) = 23.9300 a= 23.9299866 b= 0 c= 0 d= 9241.68 e= 0 f= 0 AmCl3(cr) type= formula= AmCl3 mole vol.= 0.0000 cc mole wt.= 349.3581 g 2 species in reaction 1.000 Am+++ 3.000 Cl- * log10 K(298 K) = 15.2900 a= 15.28999384 b= 0 c= 0 d= 7320.01 e= 0 f= 0 AmCl6Cs2Na(cr) type= formula= AmCl6Cs2Na mole vol.= 0.0000 cc mole wt.= 744.5168 g 4 species in reaction 1.000 Na+ 2.000 Cs+ 1.000 Am+++ 6.000 Cl- * log10 K(298 K) = 12.5600 a= 12.56000533 b= 0 c= 0 d= 3119.39 e= 0 f= 0 AmF3(cr) type= formula= AmF3 mole vol.= 0.0000 cc mole wt.= 299.9952 g 2 species in reaction 1.000 Am+++ 3.000 F- * log10 K(298 K) = -13.4000 a= -13.40003998 b= 0 c= 0 d= 1501.71 e= 0 f= 0 AmI3(cr) type= formula= AmI3 mole vol.= 0.0000 cc mole wt.= 623.7135 g 2 species in reaction 1.000 Am+++ 3.000 I- * log10 K(298 K) = 25.3000 a= 25.29999373 b= 0 c= 0 d= 8986.26 e= 0 f= 0 AmO2(cr) type= formula= AmO2 mole vol.= 0.0000 cc mole wt.= 274.9980 g 4 species in reaction -4.000 H+ 1.000 Am+++ -1.000 e- 2.000 H2O * log10 K(298 K) = 34.2099 a= 34.2098753 b= 0 c= 0 d= 13380.1 e= 0 f= 0 AmO2OH(am) type= formula= AmO2OH mole vol.= 0.0000 cc mole wt.= 292.0049 g 3 species in reaction -1.000 H+ 1.000 AmO2+ 1.000 H2O * log10 K(298 K) = 5.3000 a= 5.3 b= 0 c= 0 d= 0 e= 0 f= 0 AmOBr(cr) type= formula= AmOBr mole vol.= 0.0000 cc mole wt.= 338.9030 g 4 species in reaction -2.000 H+ 1.000 Am+++ 1.000 Br- 1.000 H2O * log10 K(298 K) = 15.9800 a= 15.97998999 b= 0 c= 0 d= 7152.86 e= 0 f= 0 AmOCl(cr) type= formula= AmOCl mole vol.= 0.0000 cc mole wt.= 294.4517 g 4 species in reaction -2.000 H+ 1.000 Am+++ 1.000 Cl- 1.000 H2O * log10 K(298 K) = 12.2600 a= 12.25999025 b= 0 c= 0 d= 6258.1 e= 0 f= 0 Amesite type= formula= Mg4Al4Si2O10(OH)8 mole vol.= 205.2000 cc mole wt.= 557.3622 g 5 species in reaction 4.000 Mg++ 4.000 Al+++ -20.000 H+ 2.000 H4(SiO4) 10.000 H2O * log10 K(298 K) = 69.3901 a= 69.3901027 b= 0 c= 0 d= 40031.2 e= 0 f= 0 Amesite-Fe type= formula= Fe4Al4Si2O10(OH)8 mole vol.= 209.0000 cc mole wt.= 683.5302 g 5 species in reaction 4.000 Fe++ 4.000 Al+++ -20.000 H+ 2.000 H4(SiO4) 10.000 H2O * log10 K(298 K) = 57.0201 a= 57.0201166 b= 0 c= 0 d= 35875.5 e= 0 f= 0 Analcime type= formula= Na0.99Al0.99Si2.01O6:H2O mole vol.= 97.0900 cc mole wt.= 219.9322 g 5 species in reaction .990 Na+ .990 Al+++ -3.960 H+ 2.010 H4(SiO4) -1.040 H2O * log10 K(298 K) = 6.6400 a= 6.640006893 b= 0 c= 0 d= 5363.81 e= 0 f= 0 Anapaite type= formula= Ca2Fe(PO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 398.0018 g 5 species in reaction 2.000 Ca++ 1.000 Fe++ -4.000 H+ 2.000 H2(PO4)- 4.000 H2O * log10 K(298 K) = 5.0200 a= 5.02 b= 0 c= 0 d= 0 e= 0 f= 0 Anglesite type= formula= Pb(SO4) mole vol.= 0.0000 cc mole wt.= 303.2620 g 2 species in reaction 1.000 Pb++ 1.000 SO4-- * log10 K(298 K) = -7.8500 a= -7.850001407 b= 0 c= 0 d= -603.298 e= 0 f= 0 Anhydrite type= formula= Ca(SO4) mole vol.= 0.0000 cc mole wt.= 136.1400 g 2 species in reaction 1.000 Ca++ 1.000 SO4-- * log10 K(298 K) = -4.4400 a= -4.44000182 b= 0 c= 0 d= 937.07 e= 0 f= 0 Annite type= formula= KFe3Si3AlO10(OH)2 mole vol.= 154.3000 cc mole wt.= 511.8811 g 5 species in reaction 1.000 K+ 3.000 Fe++ 1.000 Al+++ -10.000 H+ 3.000 H4(SiO4) * log10 K(298 K) = 32.7598 a= 32.75984682 b= 0 c= 0 d= 16357 e= 0 f= 0 Anorthite type= formula= CaAl2Si2O8 mole vol.= 0.0000 cc mole wt.= 278.2040 g 4 species in reaction 1.000 Ca++ 2.000 Al+++ -8.000 H+ 2.000 H4(SiO4) * log10 K(298 K) = 25.3098 a= 25.30984986 b= 0 c= 0 d= 16420 e= 0 f= 0 Antarcticite type= formula= CaCl2:6H2O mole vol.= 0.0000 cc mole wt.= 219.0722 g 3 species in reaction 1.000 Ca++ 2.000 Cl- 6.000 H2O * log10 K(298 K) = 3.9400 a= 3.939999198 b= 0 c= 0 d= -730.748 e= 0 f= 0 Antigorite type= formula= Mg48Si34O85(OH)62 mole vol.= 1754.8000 cc mole wt.= 4535.8898 g 4 species in reaction 48.000 Mg++ -96.000 H+ 34.000 H4(SiO4) 11.000 H2O * log10 K(298 K) = 499.8916 a= 499.8915856 b= 0 c= 0 d= 199676 e= 0 f= 0 Aragonite type= formula= CaCO3 mole vol.= 0.0000 cc mole wt.= 100.0860 g 2 species in reaction 1.000 Ca++ 1.000 CO3-- * log10 K(298 K) = -8.3100 a= -8.310039326 b= 0 c= 0 d= 546.05 e= 0 f= 0 Arcanite type= formula= K2SO4 mole vol.= 0.0000 cc mole wt.= 174.2586 g 2 species in reaction 2.000 K+ 1.000 SO4-- * log10 K(298 K) = -1.8500 a= -1.849984791 b= 0 c= 0 d= -1257.78 e= 0 f= 0 Artinite type= formula= Mg2(CO3)(OH)2:3H2O mole vol.= 0.0000 cc mole wt.= 196.6762 g 4 species in reaction 2.000 Mg++ -2.000 H+ 1.000 CO3-- 5.000 H2O * log10 K(298 K) = 9.8100 a= 9.810043887 b= 0 c= 0 d= 6152.07 e= 0 f= 0 As(cr) type= formula= As mole vol.= 0.0000 cc mole wt.= 74.9216 g 4 species in reaction 8.000 H+ 5.000 e- 1.000 AsO4--- -4.000 H2O * log10 K(298 K) = -52.5901 a= -52.59013506 b= 0 c= 0 d= -13329 e= 0 f= 0 As2O5(s) type= formula= As2O5 mole vol.= 0.0000 cc mole wt.= 229.8382 g 3 species in reaction 6.000 H+ 2.000 AsO4--- -3.000 H2O * log10 K(298 K) = -35.3400 a= -35.34004494 b= 0 c= 0 d= -555.765 e= 0 f= 0 B(OH)3(cr) type= formula= B(OH)3 mole vol.= 0.0000 cc mole wt.= 61.8317 g 3 species in reaction 1.000 H+ 1.000 B(OH)4- -1.000 H2O * log10 K(298 K) = -9.3100 a= -9.309987567 b= 0 c= 0 d= -1855.02 e= 0 f= 0 B(cr) type= formula= B mole vol.= 0.0000 cc mole wt.= 10.8110 g 4 species in reaction 4.000 H+ 3.000 e- 1.000 B(OH)4- -4.000 H2O * log10 K(298 K) = 35.9299 a= 35.92992023 b= 0 c= 0 d= 10540.5 e= 0 f= 0 B2O3(am) type= formula= B2O3 mole vol.= 0.0000 cc mole wt.= 69.6190 g 3 species in reaction 2.000 H+ 2.000 B(OH)4- -5.000 H2O * log10 K(298 K) = -10.6300 a= -10.63000867 b= 0 c= 0 d= 350.592 e= 0 f= 0 B2O3(cr) type= formula= B2O3 mole vol.= 0.0000 cc mole wt.= 69.6190 g 3 species in reaction 2.000 H+ 2.000 B(OH)4- -5.000 H2O * log10 K(298 K) = -12.7400 a= -12.7400358 b= 0 c= 0 d= -648.636 e= 0 f= 0 Ba(OH)2:8H2O(cr) type= formula= Ba(OH)2:8H2O mole vol.= 0.0000 cc mole wt.= 315.4592 g 3 species in reaction 1.000 Ba++ -2.000 H+ 10.000 H2O * log10 K(298 K) = 23.8701 a= 23.87005839 b= 0 c= 0 d= 2742.58 e= 0 f= 0 Ba(SeO3)(s) type= formula= Ba(SeO3) mole vol.= 0.0000 cc mole wt.= 264.2840 g 2 species in reaction 1.000 Ba++ 1.000 SeO3-- * log10 K(298 K) = -6.5000 a= -6.499997339 b= 0 c= 0 d= 274.749 e= 0 f= 0 Ba(SeO4)(cr) type= formula= Ba(SeO4) mole vol.= 0.0000 cc mole wt.= 280.2830 g 2 species in reaction 1.000 Ba++ 1.000 SeO4-- * log10 K(298 K) = -7.5600 a= -7.559994667 b= 0 c= 0 d= -297.731 e= 0 f= 0 Ba(cr) type= formula= Ba mole vol.= 0.0000 cc mole wt.= 137.3270 g 2 species in reaction 1.000 Ba++ 2.000 e- * log10 K(298 K) = 97.7000 a= 97.69997209 b= 0 c= 0 d= 27934.5 e= 0 f= 0 BaCl2(cr) type= formula= BaCl2 mole vol.= 0.0000 cc mole wt.= 208.2324 g 2 species in reaction 1.000 Ba++ 2.000 Cl- * log10 K(298 K) = 2.3000 a= 2.300000648 b= 0 c= 0 d= 718.734 e= 0 f= 0 BaCl2:2H2O(s) type= formula= BaCl2:2H2O mole vol.= 0.0000 cc mole wt.= 244.2620 g 3 species in reaction 1.000 Ba++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = -0.3400 a= -0.340017191 b= 0 c= 0 d= -1014.38 e= 0 f= 0 BaCl2:H2O(s) type= formula= BaCl2:H2O mole vol.= 0.0000 cc mole wt.= 226.2472 g 3 species in reaction 1.000 Ba++ 2.000 Cl- 1.000 H2O * log10 K(298 K) = 0.2800 a= 0.2800012225 b= 0 c= 0 d= -300.186 e= 0 f= 0 BaF2(cr) type= formula= BaF2 mole vol.= 0.0000 cc mole wt.= 175.3238 g 2 species in reaction 1.000 Ba++ 2.000 F- * log10 K(298 K) = -6.3200 a= -6.319996099 b= 0 c= 0 d= -85.872 e= 0 f= 0 BaHPO4(s) type= formula= BaHPO4 mole vol.= 0.0000 cc mole wt.= 233.3047 g 3 species in reaction 1.000 Ba++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -0.1900 a= -0.1899812074 b= 0 c= 0 d= 1190.93 e= 0 f= 0 BaMoO4(s) type= formula= BaMoO4 mole vol.= 0.0000 cc mole wt.= 297.2630 g 2 species in reaction 1.000 Ba++ 1.000 MoO4-- * log10 K(298 K) = -7.8300 a= -7.830002832 b= 0 c= 0 d= -719.726 e= 0 f= 0 BaO(cr) type= formula= BaO mole vol.= 0.0000 cc mole wt.= 153.3260 g 3 species in reaction 1.000 Ba++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 48.0700 a= 48.06995875 b= 0 c= 0 d= 14235.2 e= 0 f= 0 BaS(s) type= formula= BaS mole vol.= 0.0000 cc mole wt.= 169.3930 g 3 species in reaction 1.000 Ba++ -1.000 H+ 1.000 HS- * log10 K(298 K) = 15.6600 a= 15.65998485 b= 0 c= 0 d= 4713.97 e= 0 f= 0 Barite type= formula= Ba(SO4) mole vol.= 0.0000 cc mole wt.= 233.3890 g 2 species in reaction 1.000 Ba++ 1.000 SO4-- * log10 K(298 K) = -9.9700 a= -9.969996114 b= 0 c= 0 d= -1382.1 e= 0 f= 0 Bassanite type= formula= CaSO4:0.5H2O mole vol.= 0.0000 cc mole wt.= 145.1474 g 3 species in reaction 1.000 Ca++ 1.000 SO4-- .500 H2O * log10 K(298 K) = -3.9200 a= -3.920003919 b= 0 c= 0 d= 906.67 e= 0 f= 0 Bassetite type= formula= Fe(UO2)2(PO4)2 mole vol.= 0.0000 cc mole wt.= 785.8404 g 4 species in reaction 1.000 Fe++ 2.000 UO2++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -1.0700 a= -1.069990553 b= 0 c= 0 d= 1904.91 e= 0 f= 0 Becquerelite(nat) type= formula= Ca(UO2)6O4(OH)6:8H2O mole vol.= 0.0000 cc mole wt.= 1970.3952 g 4 species in reaction 1.000 Ca++ 6.000 UO2++ -14.000 H+ 18.000 H2O * log10 K(298 K) = 29.0000 a= 29.00004176 b= 0 c= 0 d= 19760.5 e= 0 f= 0 Becquerelite(syn) type= formula= Ca(UO2)6O4(OH)6:8H2O mole vol.= 0.0000 cc mole wt.= 1970.3952 g 4 species in reaction 1.000 Ca++ 6.000 UO2++ -14.000 H+ 18.000 H2O * log10 K(298 K) = 40.5000 a= 40.5 b= 0 c= 0 d= 0 e= 0 f= 0 Beidellite-Ca type= formula= Ca0.17Al2.34Si3.66O10(OH)2 mole vol.= 134.1000 cc mole wt.= 366.7467 g 5 species in reaction .170 Ca++ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 5.7700 a= 5.769985242 b= 0 c= 0 d= 10845.5 e= 0 f= 0 Beidellite-K type= formula= K0.34Al2.34Si3.66O10(OH)2 mole vol.= 133.2200 cc mole wt.= 373.2269 g 5 species in reaction .340 K+ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 4.6000 a= 4.599996713 b= 0 c= 0 d= 9877.47 e= 0 f= 0 Beidellite-Mg type= formula= Mg0.17Al2.34Si3.66O10(OH)2 mole vol.= 130.1100 cc mole wt.= 364.0653 g 5 species in reaction .170 Mg++ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 5.2301 a= 5.230128056 b= 0 c= 0 d= 10907.2 e= 0 f= 0 Beidellite-Na type= formula= Na0.34Al2.34Si3.66O10(OH)2 mole vol.= 132.4900 cc mole wt.= 367.7500 g 5 species in reaction .340 Na+ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 5.0999 a= 5.099940131 b= 0 c= 0 d= 10327.6 e= 0 f= 0 Beidellite_SBld-1 type= formula= Ca0.185K0.104(Si3.574Al0.426)(Al1.812Mg0.090Fe0.112)O10(OH)2 mole vol.= 137.9800 cc mole wt.= 374.6889 g 8 species in reaction .185 Ca++ .090 Mg++ .104 K+ .112 Fe+++ 2.238 Al+++ -7.704 H+ 3.574 H4(SiO4) -2.296 H2O * log10 K(298 K) = 7.5800 a= 7.579990508 b= 0 c= 0 d= 11725.7 e= 0 f= 0 Beidellite_SBld-1(4.576H2O) type= formula= Ca0.185K0.104Si3.574Al2.238Mg0.090Fe0.112O10(OH)2:4.576H2O mole vol.= 220.6700 cc mole wt.= 457.1247 g 8 species in reaction .185 Ca++ .090 Mg++ .104 K+ .112 Fe+++ 2.238 Al+++ -7.704 H+ 3.574 H4(SiO4) 2.280 H2O * log10 K(298 K) = 4.2601 a= 4.260148868 b= 0 c= 0 d= 10116.9 e= 0 f= 0 Berlinite type= formula= Al(PO4) mole vol.= 0.0000 cc mole wt.= 121.9513 g 3 species in reaction 1.000 Al+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -0.5700 a= -0.57 b= 0 c= 0 d= 0 e= 0 f= 0 Berndtite type= formula= SnS2 mole vol.= 0.0000 cc mole wt.= 182.8420 g 3 species in reaction 1.000 Sn++++ -2.000 H+ 2.000 HS- * log10 K(298 K) = -37.5600 a= -37.55997758 b= 0 c= 0 d= -4564.64 e= 0 f= 0 Berthierine(FeII) type= formula= (Fe2Al)(SiAl)O5(OH)4 mole vol.= 103.8600 cc mole wt.= 341.7651 g 5 species in reaction 2.000 Fe++ 2.000 Al+++ -10.000 H+ 1.000 H4(SiO4) 5.000 H2O * log10 K(298 K) = 34.5699 a= 34.56985036 b= 0 c= 0 d= 19675.5 e= 0 f= 0 Berthierine(FeIII) type= formula= (Fe2.34Fe0.33Al0.33)(Si1.34Al0.66)O5(OH)4 mole vol.= 103.2700 cc mole wt.= 361.4803 g 6 species in reaction .330 Fe+++ 2.340 Fe++ .990 Al+++ -8.640 H+ 1.340 H4(SiO4) 3.640 H2O * log10 K(298 K) = 28.8099 a= 28.80992988 b= 0 c= 0 d= 15679.3 e= 0 f= 0 Berthierine_ISGS type= formula= (Si1.332Al0.668)(Al0.976Fe0.182Fe1.44Mg0.157)O5(OH)4 mole vol.= 101.1600 cc mole wt.= 324.1898 g 7 species in reaction .157 Mg++ .182 Fe+++ 1.440 Fe++ 1.644 Al+++ -8.672 H+ 1.332 H4(SiO4) 3.672 H2O * log10 K(298 K) = 27.9100 a= 27.91003492 b= 0 c= 0 d= 16630.4 e= 0 f= 0 Berthierine_Lorraine type= formula= Fe0.608Fe0.936Mg0.37Al1.052Si1.52O5(OH)4 mole vol.= 103.8000 cc mole wt.= 314.3177 g 7 species in reaction .370 Mg++ .936 Fe+++ .608 Fe++ 1.052 Al+++ -7.920 H+ 1.520 H4(SiO4) 2.920 H2O * log10 K(298 K) = 1.0200 a= 1.020000184 b= 0 c= 0 d= 8488.42 e= 0 f= 0 Bieberite type= formula= CoSO4:7H2O mole vol.= 0.0000 cc mole wt.= 281.0988 g 3 species in reaction 1.000 Co++ 1.000 SO4-- 7.000 H2O * log10 K(298 K) = -2.3500 a= -2.349998694 b= 0 c= 0 d= -618.445 e= 0 f= 0 Bischofite type= formula= MgCl2:6H2O mole vol.= 0.0000 cc mole wt.= 203.2992 g 3 species in reaction 1.000 Mg++ 2.000 Cl- 6.000 H2O * log10 K(298 K) = 4.4600 a= 4.460003193 b= 0 c= 0 d= 454.954 e= 0 f= 0 Bloedite type= formula= Na2Mg(SO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 334.4678 g 4 species in reaction 1.000 Mg++ 2.000 Na+ 2.000 SO4-- 4.000 H2O * log10 K(298 K) = -2.3500 a= -2.35 b= 0 c= 0 d= 0 e= 0 f= 0 Boehmite type= formula= AlO(OH) mole vol.= 0.0000 cc mole wt.= 59.9874 g 3 species in reaction 1.000 Al+++ -3.000 H+ 2.000 H2O * log10 K(298 K) = 7.6201 a= 7.620059551 b= 0 c= 0 d= 5936.87 e= 0 f= 0 Br2(l) type= formula= Br2 mole vol.= 0.0000 cc mole wt.= 159.8080 g 2 species in reaction -2.000 e- 2.000 Br- * log10 K(298 K) = 36.3902 a= 36.39015205 b= 0 c= 0 d= 12683.4 e= 0 f= 0 Brucite type= formula= Mg(OH)2 mole vol.= 23.6300 cc mole wt.= 58.3188 g 3 species in reaction 1.000 Mg++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 17.1000 a= 17.09999292 b= 0 c= 0 d= 5962.98 e= 0 f= 0 Brushite type= formula= Ca(HPO4):2H2O mole vol.= 0.0000 cc mole wt.= 172.0853 g 4 species in reaction 1.000 Ca++ -1.000 H+ 1.000 H2(PO4)- 2.000 H2O * log10 K(298 K) = 0.6000 a= 0.600001273 b= 0 c= 0 d= 385.223 e= 0 f= 0 Bunsenite type= formula= NiO mole vol.= 0.0000 cc mole wt.= 74.6890 g 3 species in reaction 1.000 Ni++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 12.4800 a= 12.48001236 b= 0 c= 0 d= 5283.01 e= 0 f= 0 Burkeite type= formula= Na6(CO3)(SO4)2 mole vol.= 0.0000 cc mole wt.= 390.0708 g 3 species in reaction 6.000 Na+ 1.000 CO3-- 2.000 SO4-- * log10 K(298 K) = -0.7700 a= -0.77 b= 0 c= 0 d= 0 e= 0 f= 0 C(cr) type= formula= C mole vol.= 0.0000 cc mole wt.= 12.0110 g 4 species in reaction 6.000 H+ 4.000 e- 1.000 CO3-- -3.000 H2O * log10 K(298 K) = -32.1500 a= -32.15000432 b= 0 c= 0 d= -9520.09 e= 0 f= 0 C2SH(alpha) type= formula= Ca2(HSiO4)(OH) mole vol.= 71.1200 cc mole wt.= 190.2523 g 4 species in reaction 2.000 Ca++ -4.000 H+ 1.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 35.5401 a= 35.54007586 b= 0 c= 0 d= 10347.7 e= 0 f= 0 C3AH6 type= formula= Ca3Al2(OH)12 mole vol.= 149.5200 cc mole wt.= 378.2798 g 4 species in reaction 3.000 Ca++ 2.000 Al+++ -12.000 H+ 12.000 H2O * log10 K(298 K) = 80.3201 a= 80.32007355 b= 0 c= 0 d= 30518 e= 0 f= 0 C3FH6 type= formula= Ca3Fe2(OH)12 mole vol.= 154.5000 cc mole wt.= 436.0108 g 4 species in reaction 3.000 Ca++ 2.000 Fe+++ -12.000 H+ 12.000 H2O * log10 K(298 K) = 72.3699 a= 72.36993206 b= 0 c= 0 d= 26606.2 e= 0 f= 0 C4AH13 type= formula= Ca4Al2(OH)14:6H2O mole vol.= 269.2000 cc mole wt.= 560.4604 g 4 species in reaction 4.000 Ca++ 2.000 Al+++ -14.000 H+ 20.000 H2O * log10 K(298 K) = 103.6500 a= 103.6499798 b= 0 c= 0 d= 33816 e= 0 f= 0 C4FH13 type= formula= Ca4Fe2(OH)14:6H2O mole vol.= 274.4000 cc mole wt.= 618.1914 g 4 species in reaction 4.000 Ca++ 2.000 Fe+++ -14.000 H+ 20.000 H2O * log10 K(298 K) = 95.1199 a= 95.11985882 b= 0 c= 0 d= 29731.3 e= 0 f= 0 CSH0.8 type= formula= Ca0.8SiO2.8:1.54H2O mole vol.= 59.2900 cc mole wt.= 132.6879 g 4 species in reaction .800 Ca++ -1.600 H+ 1.000 H4(SiO4) .340 H2O * log10 K(298 K) = 11.0500 a= 11.04999778 b= 0 c= 0 d= 2488.72 e= 0 f= 0 CSH1.2 type= formula= Ca1.2SiO3.2:2.06H2O mole vol.= 71.9500 cc mole wt.= 164.4864 g 4 species in reaction 1.200 Ca++ -2.400 H+ 1.000 H4(SiO4) 1.260 H2O * log10 K(298 K) = 19.3000 a= 19.29998912 b= 0 c= 0 d= 4627.89 e= 0 f= 0 CSH1.6 type= formula= Ca1.6SiO3.6:2.58H2O mole vol.= 84.6800 cc mole wt.= 196.2849 g 4 species in reaction 1.600 Ca++ -3.200 H+ 1.000 H4(SiO4) 2.180 H2O * log10 K(298 K) = 28.0000 a= 27.99999158 b= 0 c= 0 d= 6963.41 e= 0 f= 0 Ca(Adipate)(s) type= formula= Ca((CH2)4(COO)2) mole vol.= 0.0000 cc mole wt.= 184.2032 g 2 species in reaction 1.000 Ca++ 1.000 Adipate-- * log10 K(298 K) = -3.3000 a= -3.3 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HGlu)2(s) type= formula= Ca(HOCH2(CHOH)4COO)2 mole vol.= 0.0000 cc mole wt.= 430.3698 g 2 species in reaction 1.000 Ca++ 2.000 HGlu- * log10 K(298 K) = -4.1900 a= -4.19 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HIsa)2(cr) type= formula= Ca(C6H11O6)2 mole vol.= 0.0000 cc mole wt.= 398.3718 g 2 species in reaction 1.000 Ca++ 2.000 HIsa- * log10 K(298 K) = -6.4000 a= -6.4 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(HPO4)(s) type= formula= Ca(HPO4) mole vol.= 0.0000 cc mole wt.= 136.0557 g 3 species in reaction 1.000 Ca++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 0.3000 a= 0.2999875667 b= 0 c= 0 d= 1258.72 e= 0 f= 0 Ca(NO3)2(s) type= formula= Ca(NO3)2 mole vol.= 0.0000 cc mole wt.= 164.0854 g 2 species in reaction 1.000 Ca++ 2.000 NO3- * log10 K(298 K) = 5.8900 a= 5.89 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(Ox):2H2O(s) type= formula= Ca((COO)2):2H2O mole vol.= 0.0000 cc mole wt.= 164.1256 g 3 species in reaction 1.000 Ca++ 1.000 Ox-- 2.000 H2O * log10 K(298 K) = -8.3000 a= -8.300018293 b= 0 c= 0 d= -1316.29 e= 0 f= 0 Ca(Ox):3H2O(s) type= formula= Ca((COO)2):3H2O mole vol.= 0.0000 cc mole wt.= 182.1404 g 3 species in reaction 1.000 Ca++ 1.000 Ox-- 3.000 H2O * log10 K(298 K) = -8.1900 a= -8.190009856 b= 0 c= 0 d= -1551.34 e= 0 f= 0 Ca(Ox):H2O(s) type= formula= Ca((COO)2):H2O mole vol.= 0.0000 cc mole wt.= 146.1108 g 3 species in reaction 1.000 Ca++ 1.000 Ox-- 1.000 H2O * log10 K(298 K) = -8.7300 a= -8.729997536 b= 0 c= 0 d= -1123.02 e= 0 f= 0 Ca(SO3)(s) type= formula= Ca(SO3) mole vol.= 0.0000 cc mole wt.= 120.1410 g 2 species in reaction 1.000 Ca++ 1.000 SO3-- * log10 K(298 K) = -6.5000 a= -6.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ca(SeO3):H2O(s) type= formula= Ca(SeO3):H2O mole vol.= 0.0000 cc mole wt.= 185.0498 g 3 species in reaction 1.000 Ca++ 1.000 SeO3-- 1.000 H2O * log10 K(298 K) = -6.4000 a= -6.399997518 b= 0 c= 0 d= 584.494 e= 0 f= 0 Ca(SeO4):2H2O(s) type= formula= Ca(SeO4):2H2O mole vol.= 0.0000 cc mole wt.= 219.0636 g 3 species in reaction 1.000 Ca++ 1.000 SeO4-- 2.000 H2O * log10 K(298 K) = -2.6800 a= -2.680000651 b= 0 c= 0 d= 478.459 e= 0 f= 0 Ca(cr) type= formula= Ca mole vol.= 0.0000 cc mole wt.= 40.0780 g 2 species in reaction 1.000 Ca++ 2.000 e- * log10 K(298 K) = 96.8499 a= 96.84991733 b= 0 c= 0 d= 28362.8 e= 0 f= 0 Ca2(Pyrophos)(s) type= formula= Ca2(P2O7) mole vol.= 0.0000 cc mole wt.= 254.0966 g 2 species in reaction 2.000 Ca++ 1.000 Pyrophos---- * log10 K(298 K) = -15.5000 a= -15.5 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2Cl2(OH)2:H2O(s) type= formula= Ca2Cl2(OH)2:H2O mole vol.= 0.0000 cc mole wt.= 203.0900 g 4 species in reaction 2.000 Ca++ -2.000 H+ 2.000 Cl- 3.000 H2O * log10 K(298 K) = 26.5300 a= 26.53 b= 0 c= 0 d= 0 e= 0 f= 0 Ca2Fe2O5(s) type= formula= Ca2Fe2O5 mole vol.= 0.0000 cc mole wt.= 271.8450 g 4 species in reaction 2.000 Ca++ 2.000 Fe+++ -10.000 H+ 5.000 H2O * log10 K(298 K) = 56.7600 a= 56.76000503 b= 0 c= 0 d= 24803.1 e= 0 f= 0 Ca2ZrSi3O12(cr) type= formula= Ca2ZrSi3O12 mole vol.= 0.0000 cc mole wt.= 447.6205 g 5 species in reaction 2.000 Ca++ -12.000 H+ -4.000 e- 3.000 H4(SiO4) 1.000 Zr++++ * log10 K(298 K) = -68.2701 a= -68.27005031 b= 0 c= 0 d= -10703.6 e= 0 f= 0 Ca3(AsO4)2:xH2O type= formula= Ca3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 398.0692 g 2 species in reaction 3.000 Ca++ 2.000 AsO4--- * log10 K(298 K) = -21.0000 a= -21 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(Cit)2:4H2O(s) type= formula= Ca3(COOCH2COHCOOCH2COO)2:4H2O mole vol.= 0.0000 cc mole wt.= 570.4902 g 3 species in reaction 3.000 Ca++ 2.000 Cit--- 4.000 H2O * log10 K(298 K) = -17.9000 a= -17.9 b= 0 c= 0 d= 0 e= 0 f= 0 Ca3(PO4)2(alfa) type= formula= Ca3(PO4)2 mole vol.= 0.0000 cc mole wt.= 310.1736 g 3 species in reaction 3.000 Ca++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 10.2200 a= 10.22000154 b= 0 c= 0 d= 6544.87 e= 0 f= 0 Ca3B2O6(s) type= formula= Ca3B2O6 mole vol.= 0.0000 cc mole wt.= 237.8500 g 4 species in reaction 3.000 Ca++ -4.000 H+ 2.000 B(OH)4- -2.000 H2O * log10 K(298 K) = 40.5802 a= 40.58018345 b= 0 c= 0 d= 16626.3 e= 0 f= 0 Ca3ZrSi2O9(cr) type= formula= Ca3ZrSi2O9 mole vol.= 0.0000 cc mole wt.= 411.6160 g 5 species in reaction 3.000 Ca++ -10.000 H+ 2.000 H4(SiO4) 1.000 Zr++++ 1.000 H2O * log10 K(298 K) = 47.8701 a= 47.87006953 b= 0 c= 0 d= 21766.7 e= 0 f= 0 Ca4Al2O6(CrO4):15H2O(s) type= formula= Ca4Al2O6(CrO4):15H2O mole vol.= 0.0000 cc mole wt.= 696.4831 g 5 species in reaction 4.000 Ca++ 2.000 Al+++ -12.000 H+ 1.000 CrO4-- 21.000 H2O * log10 K(298 K) = 71.3601 a= 71.36011769 b= 0 c= 0 d= 28518.5 e= 0 f= 0 Ca4Cl2(OH)6:13H2O(s) type= formula= Ca4Cl2(OH)6:13H2O mole vol.= 0.0000 cc mole wt.= 567.4512 g 4 species in reaction 4.000 Ca++ -6.000 H+ 2.000 Cl- 19.000 H2O * log10 K(298 K) = 68.7301 a= 68.73011404 b= 0 c= 0 d= 14203.9 e= 0 f= 0 Ca4H(PO4)3:2.5H2O(s) type= formula= Ca4H(PO4)3:2.5H2O mole vol.= 0.0000 cc mole wt.= 491.2663 g 4 species in reaction 4.000 Ca++ -5.000 H+ 3.000 H2(PO4)- 2.500 H2O * log10 K(298 K) = 11.8100 a= 11.81 b= 0 c= 0 d= 0 e= 0 f= 0 Ca6(Al(OH)6)2(CrO4)3:26H2O(s) type= formula= Ca6(Al(OH)6)2(CrO4)3:26H2O mole vol.= 0.0000 cc mole wt.= 1314.8749 g 5 species in reaction 6.000 Ca++ 2.000 Al+++ -12.000 H+ 3.000 CrO4-- 38.000 H2O * log10 K(298 K) = 60.2800 a= 60.28000325 b= 0 c= 0 d= 26617.7 e= 0 f= 0 CaB2O4(s) type= formula= CaB2O4 mole vol.= 0.0000 cc mole wt.= 125.6960 g 3 species in reaction 1.000 Ca++ 2.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -2.1800 a= -2.180040483 b= 0 c= 0 d= 3076.24 e= 0 f= 0 CaB4O7(s) type= formula= CaB4O7 mole vol.= 0.0000 cc mole wt.= 195.3150 g 4 species in reaction 1.000 Ca++ 2.000 H+ 4.000 B(OH)4- -9.000 H2O * log10 K(298 K) = -23.4400 a= -23.44002732 b= 0 c= 0 d= -489.481 e= 0 f= 0 CaCO3:H2O(s) type= formula= CaCO3:H2O mole vol.= 0.0000 cc mole wt.= 118.1008 g 3 species in reaction 1.000 Ca++ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -7.6000 a= -7.599999695 b= 0 c= 0 d= 301.388 e= 0 f= 0 CaCl2:2H2O(cr) type= formula= CaCl2:2H2O mole vol.= 0.0000 cc mole wt.= 147.0130 g 3 species in reaction 1.000 Ca++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = 7.9500 a= 7.94999561 b= 0 c= 0 d= 2339.54 e= 0 f= 0 CaCl2:4H2O(cr) type= formula= CaCl2:4H2O mole vol.= 0.0000 cc mole wt.= 183.0426 g 3 species in reaction 1.000 Ca++ 2.000 Cl- 4.000 H2O * log10 K(298 K) = 5.3500 a= 5.350005457 b= 0 c= 0 d= 590.762 e= 0 f= 0 CaCl2:H2O(s) type= formula= CaCl2:H2O mole vol.= 0.0000 cc mole wt.= 128.9982 g 3 species in reaction 1.000 Ca++ 2.000 Cl- 1.000 H2O * log10 K(298 K) = 7.8500 a= 7.849987776 b= 0 c= 0 d= 2724.5 e= 0 f= 0 CaCrO4(s) type= formula= CaCrO4 mole vol.= 0.0000 cc mole wt.= 156.0701 g 2 species in reaction 1.000 Ca++ 1.000 CrO4-- * log10 K(298 K) = -3.1500 a= -3.150003762 b= 0 c= 0 d= 1191.29 e= 0 f= 0 CaF2:6H2O(s) type= formula= CaF2:6H2O mole vol.= 0.0000 cc mole wt.= 186.1636 g 3 species in reaction 1.000 Ca++ 2.000 F- 6.000 H2O * log10 K(298 K) = -5.4800 a= -5.48 b= 0 c= 0 d= 0 e= 0 f= 0 CaFe2O4(s) type= formula= CaFe2O4 mole vol.= 0.0000 cc mole wt.= 215.7680 g 4 species in reaction 1.000 Ca++ 2.000 Fe+++ -8.000 H+ 4.000 H2O * log10 K(298 K) = 21.2400 a= 21.23999101 b= 0 c= 0 d= 13788.6 e= 0 f= 0 CaI2(s) type= formula= CaI2 mole vol.= 0.0000 cc mole wt.= 293.8870 g 2 species in reaction 1.000 Ca++ 2.000 I- * log10 K(298 K) = 22.5000 a= 22.5 b= 0 c= 0 d= 0 e= 0 f= 0 CaMg3(CO3)4(s) type= formula= CaMg3(CO3)4 mole vol.= 0.0000 cc mole wt.= 353.0250 g 3 species in reaction 1.000 Ca++ 3.000 Mg++ 4.000 CO3-- * log10 K(298 K) = -30.8100 a= -30.80999988 b= 0 c= 0 d= 5867.92 e= 0 f= 0 CaMoO4(s) type= formula= CaMoO4 mole vol.= 0.0000 cc mole wt.= 200.0140 g 2 species in reaction 1.000 Ca++ 1.000 MoO4-- * log10 K(298 K) = -7.9000 a= -7.899999329 b= 0 c= 0 d= -74.5373 e= 0 f= 0 CaO(cr) type= formula= CaO mole vol.= 0.0000 cc mole wt.= 56.0770 g 3 species in reaction 1.000 Ca++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 32.7000 a= 32.69997086 b= 0 c= 0 d= 10128.6 e= 0 f= 0 CaSn(OH)6(s) type= formula= CaSn(OH)6 mole vol.= 0.0000 cc mole wt.= 260.8294 g 4 species in reaction 1.000 Ca++ 1.000 Sn++++ -6.000 H+ 6.000 H2O * log10 K(298 K) = -0.7400 a= -0.74 b= 0 c= 0 d= 0 e= 0 f= 0 CaU2O7:3H2O(cr) type= formula= CaU2O7:3H2O mole vol.= 0.0000 cc mole wt.= 682.1732 g 4 species in reaction 1.000 Ca++ 2.000 UO2++ -6.000 H+ 6.000 H2O * log10 K(298 K) = 23.4000 a= 23.4 b= 0 c= 0 d= 0 e= 0 f= 0 Cadmoselite type= formula= CdSe mole vol.= 0.0000 cc mole wt.= 191.3710 g 3 species in reaction 1.000 Cd++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -18.6800 a= -18.68000041 b= 0 c= 0 d= -4255.99 e= 0 f= 0 Calcite type= formula= CaCO3 mole vol.= 36.9300 cc mole wt.= 100.0860 g 2 species in reaction 1.000 Ca++ 1.000 CO3-- * log10 K(298 K) = -8.4800 a= -8.479960003 b= 0 c= 0 d= 554.72 e= 0 f= 0 Carnallite type= formula= KMgCl3:6H2O mole vol.= 0.0000 cc mole wt.= 277.8502 g 4 species in reaction 1.000 Mg++ 1.000 K+ 3.000 Cl- 6.000 H2O * log10 K(298 K) = 4.3300 a= 4.330000597 b= 0 c= 0 d= -487.809 e= 0 f= 0 Cassiterite type= formula= SnO2 mole vol.= 0.0000 cc mole wt.= 150.7080 g 3 species in reaction 1.000 Sn++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = -15.6000 a= -15.60000667 b= 0 c= 0 d= 1334.1 e= 0 f= 0 Cattierite type= formula= CoS2 mole vol.= 0.0000 cc mole wt.= 123.0652 g 4 species in reaction 1.000 Co++ -2.000 H+ -2.000 e- 2.000 HS- * log10 K(298 K) = -19.9800 a= -19.98000743 b= 0 c= 0 d= -3170.58 e= 0 f= 0 Cd(CO3)(s) type= formula= Cd(CO3) mole vol.= 0.0000 cc mole wt.= 172.4190 g 2 species in reaction 1.000 Cd++ 1.000 CO3-- * log10 K(298 K) = -12.1000 a= -12.10003475 b= 0 c= 0 d= -77.4101 e= 0 f= 0 Cd(OH)2(s) type= formula= Cd(OH)2 mole vol.= 0.0000 cc mole wt.= 146.4248 g 3 species in reaction 1.000 Cd++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 13.8600 a= 13.86000261 b= 0 c= 0 d= 4582.45 e= 0 f= 0 Cd(SO4)(cr) type= formula= Cd(SO4) mole vol.= 0.0000 cc mole wt.= 208.4730 g 2 species in reaction 1.000 Cd++ 1.000 SO4-- * log10 K(298 K) = -0.1600 a= -0.1599999782 b= 0 c= 0 d= 2715.1 e= 0 f= 0 Cd(SO4):2.67H2O(cr) type= formula= Cd(SO4):2.67H2O mole vol.= 0.0000 cc mole wt.= 256.5725 g 3 species in reaction 1.000 Cd++ 1.000 SO4-- 2.670 H2O * log10 K(298 K) = -1.5500 a= -1.550010223 b= 0 c= 0 d= 1051.25 e= 0 f= 0 Cd(SeCn)2(cr) type= formula= Cd(SeCN)2 mole vol.= 0.0000 cc mole wt.= 322.3664 g 5 species in reaction 1.000 Cd++ -2.000 H+ -4.000 e- 2.000 Cn- 2.000 HSe- * log10 K(298 K) = -31.7500 a= -31.75 b= 0 c= 0 d= 0 e= 0 f= 0 Cd(cr) type= formula= Cd mole vol.= 0.0000 cc mole wt.= 112.4110 g 2 species in reaction 1.000 Cd++ 2.000 e- * log10 K(298 K) = 13.6200 a= 13.61999295 b= 0 c= 0 d= 3965.57 e= 0 f= 0 Cd3(AsO4)2(s) type= formula= Cd3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 615.0682 g 2 species in reaction 3.000 Cd++ 2.000 AsO4--- * log10 K(298 K) = -32.6200 a= -32.62 b= 0 c= 0 d= 0 e= 0 f= 0 Cd3(PO4)2(s) type= formula= Cd3(PO4)2 mole vol.= 0.0000 cc mole wt.= 527.1726 g 3 species in reaction 3.000 Cd++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 8.9701 a= 8.970123864 b= 0 c= 0 d= 10810.3 e= 0 f= 0 Cd5(PO4)3Cl(cr) type= formula= Cd5(PO4)3Cl mole vol.= 0.0000 cc mole wt.= 882.4171 g 4 species in reaction 5.000 Cd++ -6.000 H+ 1.000 Cl- 3.000 H2(PO4)- * log10 K(298 K) = 12.6700 a= 12.67 b= 0 c= 0 d= 0 e= 0 f= 0 Cd5(PO4)3OH(cr) type= formula= Cd5(PO4)3OH mole vol.= 0.0000 cc mole wt.= 863.9713 g 4 species in reaction 5.000 Cd++ -7.000 H+ 3.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = 19.8400 a= 19.84 b= 0 c= 0 d= 0 e= 0 f= 0 CdB2O4(s) type= formula= CdB2O4 mole vol.= 0.0000 cc mole wt.= 198.0290 g 3 species in reaction 1.000 Cd++ 2.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -8.6400 a= -8.64 b= 0 c= 0 d= 0 e= 0 f= 0 CdCl2(s) type= formula= CdCl2 mole vol.= 0.0000 cc mole wt.= 183.3164 g 2 species in reaction 1.000 Cd++ 2.000 Cl- * log10 K(298 K) = -0.6600 a= -0.6599970501 b= 0 c= 0 d= 970.5 e= 0 f= 0 CdCl2:2.5H2O(s) type= formula= CdCl2:2.5H2O mole vol.= 0.0000 cc mole wt.= 228.3534 g 3 species in reaction 1.000 Cd++ 2.000 Cl- 2.500 H2O * log10 K(298 K) = -1.9000 a= -1.899998688 b= 0 c= 0 d= -380.521 e= 0 f= 0 CdCl2:H2O(cr) type= formula= CdCl2:H2O mole vol.= 0.0000 cc mole wt.= 201.3312 g 3 species in reaction 1.000 Cd++ 2.000 Cl- 1.000 H2O * log10 K(298 K) = -1.6900 a= -1.690003097 b= 0 c= 0 d= 390.185 e= 0 f= 0 CdO(s) type= formula= CdO mole vol.= 0.0000 cc mole wt.= 128.4100 g 3 species in reaction 1.000 Cd++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 15.1000 a= 15.09999506 b= 0 c= 0 d= 5400.95 e= 0 f= 0 CdS(s) type= formula= CdS mole vol.= 0.0000 cc mole wt.= 144.4770 g 3 species in reaction 1.000 Cd++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -14.8200 a= -14.81999546 b= 0 c= 0 d= -2954.85 e= 0 f= 0 CdSiO3(cr) type= formula= CdSiO3 mole vol.= 0.0000 cc mole wt.= 188.4935 g 4 species in reaction 1.000 Cd++ -2.000 H+ 1.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 7.7900 a= 7.78998133 b= 0 c= 0 d= 3248.61 e= 0 f= 0 Celadonite-Fe type= formula= KFeAlSi4O10(OH)2 mole vol.= 143.0100 cc mole wt.= 428.2726 g 6 species in reaction 1.000 K+ 1.000 Fe++ 1.000 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 6.4300 a= 6.430011823 b= 0 c= 0 d= 5425.29 e= 0 f= 0 Celadonite-Mg type= formula= KMgAlSi4O10(OH)2 mole vol.= 139.6200 cc mole wt.= 396.7306 g 6 species in reaction 1.000 Mg++ 1.000 K+ 1.000 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 10.2000 a= 10.19997349 b= 0 c= 0 d= 6490.33 e= 0 f= 0 Celestite type= formula= Sr(SO4) mole vol.= 46.2500 cc mole wt.= 183.6820 g 2 species in reaction 1.000 Sr++ 1.000 SO4-- * log10 K(298 K) = -6.6200 a= -6.6200054 b= 0 c= 0 d= 128.024 e= 0 f= 0 Cerussite type= formula= Pb(CO3) mole vol.= 0.0000 cc mole wt.= 267.2080 g 2 species in reaction 1.000 Pb++ 1.000 CO3-- * log10 K(298 K) = -13.2900 a= -13.29001208 b= 0 c= 0 d= -1432.51 e= 0 f= 0 Chabazite type= formula= CaAl2Si4O12:6H2O mole vol.= 251.1600 cc mole wt.= 506.4598 g 5 species in reaction 1.000 Ca++ 2.000 Al+++ -8.000 H+ 4.000 H4(SiO4) 2.000 H2O * log10 K(298 K) = 11.5201 a= 11.5200537 b= 0 c= 0 d= 10958.4 e= 0 f= 0 Chamosite type= formula= Fe5Al2Si3O10(OH)8 mole vol.= 215.8800 cc mole wt.= 713.4997 g 5 species in reaction 5.000 Fe++ 2.000 Al+++ -16.000 H+ 3.000 H4(SiO4) 6.000 H2O * log10 K(298 K) = 47.5801 a= 47.58011809 b= 0 c= 0 d= 26352.5 e= 0 f= 0 Chloroapatite type= formula= Ca5Cl(PO4)3 mole vol.= 0.0000 cc mole wt.= 520.7521 g 4 species in reaction 5.000 Ca++ -6.000 H+ 1.000 Cl- 3.000 H2(PO4)- * log10 K(298 K) = 5.2100 a= 5.209957639 b= 0 c= 0 d= 6923.09 e= 0 f= 0 Chromite type= formula= FeCr2O4 mole vol.= 0.0000 cc mole wt.= 223.8352 g 4 species in reaction 1.000 Fe++ -8.000 H+ 2.000 Cr+++ 4.000 H2O * log10 K(298 K) = 15.1199 a= 15.11988637 b= 0 c= 0 d= 14041.4 e= 0 f= 0 Clarkeite type= formula= Na(UO2)O(OH) mole vol.= 0.0000 cc mole wt.= 326.0226 g 4 species in reaction 1.000 Na+ 1.000 UO2++ -3.000 H+ 2.000 H2O * log10 K(298 K) = 9.4000 a= 9.400011472 b= 0 c= 0 d= 5552.43 e= 0 f= 0 Claudetite type= formula= As2O3 mole vol.= 0.0000 cc mole wt.= 197.8402 g 2 species in reaction -3.000 H2O 2.000 H3(AsO3) * log10 K(298 K) = -1.4600 a= -1.459993621 b= 0 c= 0 d= -1474.97 e= 0 f= 0 Clausthalite type= formula= PbSe mole vol.= 0.0000 cc mole wt.= 286.1600 g 3 species in reaction 1.000 Pb++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -20.5300 a= -20.52999762 b= 0 c= 0 d= -5940 e= 0 f= 0 Clinochlore type= formula= Mg5Al2Si3O10(OH)8 mole vol.= 211.4700 cc mole wt.= 555.7897 g 5 species in reaction 5.000 Mg++ 2.000 Al+++ -16.000 H+ 3.000 H4(SiO4) 6.000 H2O * log10 K(298 K) = 61.6801 a= 61.68011273 b= 0 c= 0 d= 31380.5 e= 0 f= 0 Clinoptilolite_Ca type= formula= Ca0.55(Si4.9Al1.1)O12:3.9H2O mole vol.= 209.6600 cc mole wt.= 451.5872 g 5 species in reaction .550 Ca++ 1.100 Al+++ -4.400 H+ 4.900 H4(SiO4) -3.700 H2O * log10 K(298 K) = -2.3500 a= -2.350005584 b= 0 c= 0 d= 3577.53 e= 0 f= 0 Clinoptilolite_K type= formula= K1.1(Si4.9Al1.1)O12:2.7H2O mole vol.= 210.7300 cc mole wt.= 450.9347 g 5 species in reaction 1.100 K+ 1.100 Al+++ -4.400 H+ 4.900 H4(SiO4) -4.900 H2O * log10 K(298 K) = -1.2300 a= -1.22998157 b= 0 c= 0 d= 3140.33 e= 0 f= 0 Clinoptilolite_Na type= formula= Na1.1(Si4.9Al1.1)O12:3.5H2O mole vol.= 214.7800 cc mole wt.= 447.6272 g 5 species in reaction 1.100 Na+ 1.100 Al+++ -4.400 H+ 4.900 H4(SiO4) -4.100 H2O * log10 K(298 K) = -0.0900 a= -0.08998784169 b= 0 c= 0 d= 3262.51 e= 0 f= 0 Cm(CO3)(OH)(cr) type= formula= Cm(CO3)(OH) mole vol.= 0.0000 cc mole wt.= 324.0149 g 4 species in reaction -1.000 H+ 1.000 CO3-- 1.000 Cm+++ 1.000 H2O * log10 K(298 K) = -10.3400 a= -10.34 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(CO3)(OH):0.5H2O(s) type= formula= Cm(CO3)(OH):0.5H2O mole vol.= 0.0000 cc mole wt.= 333.0223 g 4 species in reaction -1.000 H+ 1.000 CO3-- 1.000 Cm+++ 1.500 H2O * log10 K(298 K) = -7.7800 a= -7.78 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(OH)3(am) type= formula= Cm(OH)3 mole vol.= 0.0000 cc mole wt.= 298.0207 g 3 species in reaction -3.000 H+ 1.000 Cm+++ 3.000 H2O * log10 K(298 K) = 17.9000 a= 17.9 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(OH)3(cr) type= formula= Cm(OH)3 mole vol.= 0.0000 cc mole wt.= 298.0207 g 3 species in reaction -3.000 H+ 1.000 Cm+++ 3.000 H2O * log10 K(298 K) = 15.6000 a= 15.6 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(PO4):xH2O(s) type= formula= Cm(PO4) mole vol.= 0.0000 cc mole wt.= 341.9698 g 3 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 Cm+++ * log10 K(298 K) = -4.9700 a= -4.97 b= 0 c= 0 d= 0 e= 0 f= 0 Cm(cr) type= formula= Cm mole vol.= 0.0000 cc mole wt.= 247.0000 g 2 species in reaction 3.000 e- 1.000 Cm+++ * log10 K(298 K) = 104.3099 a= 104.3098623 b= 0 c= 0 d= 32123.6 e= 0 f= 0 Cm2(CO3)3(am) type= formula= Cm2(CO3)3 mole vol.= 0.0000 cc mole wt.= 674.0240 g 2 species in reaction 3.000 CO3-- 2.000 Cm+++ * log10 K(298 K) = -33.9000 a= -33.9 b= 0 c= 0 d= 0 e= 0 f= 0 Cm2O3(cr) type= formula= Cm2O3 mole vol.= 0.0000 cc mole wt.= 541.9970 g 3 species in reaction -6.000 H+ 2.000 Cm+++ 3.000 H2O * log10 K(298 K) = 52.9699 a= 52.96994417 b= 0 c= 0 d= 21075.7 e= 0 f= 0 CmCl3(cr) type= formula= CmCl3 mole vol.= 0.0000 cc mole wt.= 353.3581 g 2 species in reaction 3.000 Cl- 1.000 Cm+++ * log10 K(298 K) = 15.0700 a= 15.0700105 b= 0 c= 0 d= 7408.81 e= 0 f= 0 CmF3(cr) type= formula= CmF3 mole vol.= 0.0000 cc mole wt.= 303.9952 g 2 species in reaction 3.000 F- 1.000 Cm+++ * log10 K(298 K) = -13.1601 a= -13.1600566 b= 0 c= 0 d= 1673.35 e= 0 f= 0 CmOCl(cr) type= formula= CmOCl mole vol.= 0.0000 cc mole wt.= 298.4517 g 4 species in reaction -2.000 H+ 1.000 Cl- 1.000 Cm+++ 1.000 H2O * log10 K(298 K) = 9.4900 a= 9.490010408 b= 0 c= 0 d= 5469.38 e= 0 f= 0 CmOHCO3(am) type= formula= CmOHCO3 mole vol.= 0.0000 cc mole wt.= 324.0149 g 4 species in reaction -1.000 H+ 1.000 CO3-- 1.000 Cm+++ 1.000 H2O * log10 K(298 K) = -6.1200 a= -6.12 b= 0 c= 0 d= 0 e= 0 f= 0 Co(FeO2)2(alpha) type= formula= Co(FeO2)2 mole vol.= 0.0000 cc mole wt.= 234.6232 g 4 species in reaction 2.000 Fe+++ 1.000 Co++ -8.000 H+ 4.000 H2O * log10 K(298 K) = 0.7700 a= 0.7699919839 b= 0 c= 0 d= 8315.58 e= 0 f= 0 Co(OH)2(s,blue) type= formula= Co(OH)2 mole vol.= 0.0000 cc mole wt.= 92.9470 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 13.8000 a= 13.8 b= 0 c= 0 d= 0 e= 0 f= 0 Co(OH)2(s,rose1) type= formula= Co(OH)2 mole vol.= 0.0000 cc mole wt.= 92.9470 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 12.2000 a= 12.20000126 b= 0 c= 0 d= 4620.58 e= 0 f= 0 Co(OH)2(s,rose2) type= formula= Co(OH)2 mole vol.= 0.0000 cc mole wt.= 92.9470 g 3 species in reaction 1.000 Co++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 13.2000 a= 13.1999977 b= 0 c= 0 d= 4886.97 e= 0 f= 0 Co(SeO3):2H2O(s) type= formula= Co(SeO3):2H2O mole vol.= 0.0000 cc mole wt.= 221.9198 g 3 species in reaction 1.000 Co++ 1.000 SeO3-- 2.000 H2O * log10 K(298 K) = -7.9000 a= -7.899997233 b= 0 c= 0 d= 1089.59 e= 0 f= 0 Co(SeO4):6H2O(s) type= formula= Co(SeO4):6H2O mole vol.= 0.0000 cc mole wt.= 309.9780 g 3 species in reaction 1.000 Co++ 1.000 SeO4-- 6.000 H2O * log10 K(298 K) = -1.7600 a= -1.759996805 b= 0 c= 0 d= 177.594 e= 0 f= 0 Co(cr) type= formula= Co mole vol.= 0.0000 cc mole wt.= 58.9332 g 2 species in reaction 1.000 Co++ 2.000 e- * log10 K(298 K) = 9.7400 a= 9.739989546 b= 0 c= 0 d= 3008.65 e= 0 f= 0 Co0.84Se(cr) type= formula= Co0.84Se mole vol.= 0.0000 cc mole wt.= 128.4639 g 4 species in reaction .840 Co++ -1.000 H+ -.320 e- 1.000 HSe- * log10 K(298 K) = -9.3000 a= -9.299995439 b= 0 c= 0 d= -1113.41 e= 0 f= 0 Co2SiO4(s) type= formula= Co2SiO4 mole vol.= 0.0000 cc mole wt.= 209.9479 g 3 species in reaction 2.000 Co++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 7.3499 a= 7.349947124 b= 0 c= 0 d= 5191.7 e= 0 f= 0 Co3(AsO4)2(s) type= formula= Co3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 454.6348 g 2 species in reaction 3.000 Co++ 2.000 AsO4--- * log10 K(298 K) = -27.5600 a= -27.56 b= 0 c= 0 d= 0 e= 0 f= 0 Co3(PO4)2(s) type= formula= Co3(PO4)2 mole vol.= 0.0000 cc mole wt.= 366.7392 g 3 species in reaction 3.000 Co++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 4.3600 a= 4.36 b= 0 c= 0 d= 0 e= 0 f= 0 Co3O4(s) type= formula= Co3O4 mole vol.= 0.0000 cc mole wt.= 240.7956 g 4 species in reaction 3.000 Co++ -8.000 H+ -2.000 e- 4.000 H2O * log10 K(298 K) = 54.8598 a= 54.85984468 b= 0 c= 0 d= 20753.4 e= 0 f= 0 CoCl2(s) type= formula= CoCl2 mole vol.= 0.0000 cc mole wt.= 129.8386 g 2 species in reaction 1.000 Co++ 2.000 Cl- * log10 K(298 K) = 8.4700 a= 8.469988766 b= 0 c= 0 d= 4137.94 e= 0 f= 0 CoCl2:6H2O(s) type= formula= CoCl2:6H2O mole vol.= 0.0000 cc mole wt.= 237.9274 g 3 species in reaction 1.000 Co++ 2.000 Cl- 6.000 H2O * log10 K(298 K) = 2.5400 a= 2.539999019 b= 0 c= 0 d= -421.003 e= 0 f= 0 CoF2(s) type= formula= CoF2 mole vol.= 0.0000 cc mole wt.= 96.9300 g 2 species in reaction 1.000 Co++ 2.000 F- * log10 K(298 K) = -1.3900 a= -1.390035066 b= 0 c= 0 d= 2965.3 e= 0 f= 0 CoHPO4(s) type= formula= CoHPO4 mole vol.= 0.0000 cc mole wt.= 154.9109 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 0.4900 a= 0.49 b= 0 c= 0 d= 0 e= 0 f= 0 CoO(s) type= formula= CoO mole vol.= 0.0000 cc mole wt.= 74.9322 g 3 species in reaction 1.000 Co++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 13.7700 a= 13.77000293 b= 0 c= 0 d= 5512.21 e= 0 f= 0 CoS(alpha) type= formula= CoS mole vol.= 0.0000 cc mole wt.= 90.9992 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -7.4400 a= -7.439993705 b= 0 c= 0 d= -618.236 e= 0 f= 0 CoS(beta) type= formula= CoS mole vol.= 0.0000 cc mole wt.= 90.9992 g 3 species in reaction 1.000 Co++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -11.0700 a= -11.07 b= 0 c= 0 d= 0 e= 0 f= 0 CoSO4(s) type= formula= CoSO4 mole vol.= 0.0000 cc mole wt.= 154.9952 g 2 species in reaction 1.000 Co++ 1.000 SO4-- * log10 K(298 K) = 3.0100 a= 3.010035502 b= 0 c= 0 d= 4109.74 e= 0 f= 0 CoSO4:6H2O(s) type= formula= CoSO4:6H2O mole vol.= 0.0000 cc mole wt.= 263.0840 g 3 species in reaction 1.000 Co++ 1.000 SO4-- 6.000 H2O * log10 K(298 K) = -2.2000 a= -2.20000182 b= 0 c= 0 d= -82.0067 e= 0 f= 0 CoSO4:H2O(s) type= formula= CoSO4:H2O mole vol.= 0.0000 cc mole wt.= 173.0100 g 3 species in reaction 1.000 Co++ 1.000 SO4-- 1.000 H2O * log10 K(298 K) = -1.0500 a= -1.050034278 b= 0 c= 0 d= 2718.76 e= 0 f= 0 CoSe2(cr) type= formula= CoSe2 mole vol.= 0.0000 cc mole wt.= 216.8532 g 4 species in reaction 1.000 Co++ -2.000 H+ -2.000 e- 2.000 HSe- * log10 K(298 K) = -23.0900 a= -23.09000365 b= 0 c= 0 d= -3995.87 e= 0 f= 0 Coffinite type= formula= U(SiO4) mole vol.= 0.0000 cc mole wt.= 330.1104 g 3 species in reaction 1.000 U++++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = -7.8000 a= -7.799958377 b= 0 c= 0 d= 3189.8 e= 0 f= 0 Coffinite(am) type= formula= U(SiO4) mole vol.= 0.0000 cc mole wt.= 330.1104 g 3 species in reaction 1.000 U++++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = -1.5000 a= -1.5 b= 0 c= 0 d= 0 e= 0 f= 0 Compreignacite type= formula= K2(UO2)6O4(OH)6:7H2O mole vol.= 0.0000 cc mole wt.= 1990.4990 g 4 species in reaction 2.000 K+ 6.000 UO2++ -14.000 H+ 17.000 H2O * log10 K(298 K) = 35.8000 a= 35.8 b= 0 c= 0 d= 0 e= 0 f= 0 Corundum type= formula= Al2O3 mole vol.= 0.0000 cc mole wt.= 101.9600 g 3 species in reaction 2.000 Al+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 18.3000 a= 18.30003538 b= 0 c= 0 d= 13507.1 e= 0 f= 0 Cotunnite type= formula= PbCl2 mole vol.= 0.0000 cc mole wt.= 278.1054 g 2 species in reaction 1.000 Pb++ 2.000 Cl- * log10 K(298 K) = -4.8100 a= -4.809999677 b= 0 c= 0 d= -1366.43 e= 0 f= 0 Cr(OH)2(H2PO4)(s) type= formula= Cr(OH)2(H2PO4) mole vol.= 0.0000 cc mole wt.= 182.9955 g 4 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ 2.000 H2O * log10 K(298 K) = 0.8900 a= 0.89 b= 0 c= 0 d= 0 e= 0 f= 0 Cr(OH)2(cr) type= formula= Cr(OH)2 mole vol.= 0.0000 cc mole wt.= 86.0099 g 3 species in reaction -2.000 H+ 1.000 Cr++ 2.000 H2O * log10 K(298 K) = 11.0000 a= 10.99999224 b= 0 c= 0 d= 3941.49 e= 0 f= 0 Cr(OH)3(cr) type= formula= Cr(OH)3 mole vol.= 0.0000 cc mole wt.= 103.0168 g 3 species in reaction -3.000 H+ 1.000 Cr+++ 3.000 H2O * log10 K(298 K) = 7.5000 a= 7.499968003 b= 0 c= 0 d= 5471.52 e= 0 f= 0 Cr(cr) type= formula= Cr mole vol.= 0.0000 cc mole wt.= 51.9961 g 4 species in reaction 8.000 H+ 6.000 e- 1.000 CrO4-- -4.000 H2O * log10 K(298 K) = -39.3101 a= -39.3100825 b= 0 c= 0 d= -13806.4 e= 0 f= 0 Cr2(SO4)3(s) type= formula= Cr2(SO4)3 mole vol.= 0.0000 cc mole wt.= 392.1782 g 2 species in reaction 3.000 SO4-- 2.000 Cr+++ * log10 K(298 K) = 4.3800 a= 4.379968606 b= 0 c= 0 d= 14506.3 e= 0 f= 0 Cr2O3(cr) type= formula= Cr2O3 mole vol.= 0.0000 cc mole wt.= 151.9892 g 3 species in reaction -6.000 H+ 2.000 Cr+++ 3.000 H2O * log10 K(298 K) = 7.7499 a= 7.749931763 b= 0 c= 0 d= 10341.7 e= 0 f= 0 Cr2S3(s) type= formula= Cr2S3 mole vol.= 0.0000 cc mole wt.= 200.1902 g 3 species in reaction -3.000 H+ 3.000 HS- 2.000 Cr+++ * log10 K(298 K) = 3.2601 a= 3.260051568 b= 0 c= 0 d= 10196 e= 0 f= 0 CrCl2(cr) type= formula= CrCl2 mole vol.= 0.0000 cc mole wt.= 122.9015 g 2 species in reaction 2.000 Cl- 1.000 Cr++ * log10 K(298 K) = 12.7300 a= 12.73001511 b= 0 c= 0 d= 5404.82 e= 0 f= 0 CrCl3(cr) type= formula= CrCl3 mole vol.= 0.0000 cc mole wt.= 158.3542 g 2 species in reaction 3.000 Cl- 1.000 Cr+++ * log10 K(298 K) = 20.1901 a= 20.19013061 b= 0 c= 0 d= 10307.8 e= 0 f= 0 CrO2(cr) type= formula= CrO2 mole vol.= 0.0000 cc mole wt.= 83.9941 g 4 species in reaction 4.000 H+ 2.000 e- 1.000 CrO4-- -2.000 H2O * log10 K(298 K) = -51.6801 a= -51.68005543 b= 0 c= 0 d= -15177 e= 0 f= 0 CrO3(cr) type= formula= CrO3 mole vol.= 0.0000 cc mole wt.= 99.9931 g 3 species in reaction 2.000 H+ 1.000 CrO4-- -1.000 H2O * log10 K(298 K) = -3.0200 a= -3.020004187 b= 0 c= 0 d= 525.992 e= 0 f= 0 CrPO4(green) type= formula= CrPO4 mole vol.= 0.0000 cc mole wt.= 146.9659 g 3 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ * log10 K(298 K) = -3.0600 a= -3.06 b= 0 c= 0 d= 0 e= 0 f= 0 CrPO4(purple) type= formula= CrPO4 mole vol.= 0.0000 cc mole wt.= 146.9659 g 3 species in reaction -2.000 H+ 1.000 H2(PO4)- 1.000 Cr+++ * log10 K(298 K) = 2.5600 a= 2.56 b= 0 c= 0 d= 0 e= 0 f= 0 CrS(s) type= formula= CrS mole vol.= 0.0000 cc mole wt.= 84.0621 g 3 species in reaction -1.000 H+ 1.000 HS- 1.000 Cr++ * log10 K(298 K) = 1.6600 a= 1.660006383 b= 0 c= 0 d= 2025.15 e= 0 f= 0 Cristobalite type= formula= SiO2 mole vol.= 0.0000 cc mole wt.= 60.0835 g 2 species in reaction 1.000 H4(SiO4) -2.000 H2O * log10 K(298 K) = -3.1600 a= -3.16000048 b= 0 c= 0 d= -861.854 e= 0 f= 0 Crocoite type= formula= PbCrO4 mole vol.= 0.0000 cc mole wt.= 323.1921 g 2 species in reaction 1.000 Pb++ 1.000 CrO4-- * log10 K(298 K) = -12.5500 a= -12.54999575 b= 0 c= 0 d= -2556.31 e= 0 f= 0 Cronstedtite-Th type= formula= Fe4SiO5(OH)4 mole vol.= 76.8000 cc mole wt.= 399.4961 g 5 species in reaction 2.000 Fe+++ 2.000 Fe++ -10.000 H+ 1.000 H4(SiO4) 5.000 H2O * log10 K(298 K) = 16.1202 a= 16.12015427 b= 0 c= 0 d= 13256.6 e= 0 f= 0 Cs(cr) type= formula= Cs mole vol.= 0.0000 cc mole wt.= 132.9054 g 2 species in reaction 1.000 Cs+ 1.000 e- * log10 K(298 K) = 51.0601 a= 51.06014168 b= 0 c= 0 d= 13476.3 e= 0 f= 0 Cs2(CO3)(s) type= formula= Cs2(CO3) mole vol.= 0.0000 cc mole wt.= 325.8188 g 2 species in reaction 2.000 Cs+ 1.000 CO3-- * log10 K(298 K) = 9.9000 a= 9.90000328 b= 0 c= 0 d= 2800.19 e= 0 f= 0 Cs2(SO4)(s) type= formula= Cs2(SO4) mole vol.= 0.0000 cc mole wt.= 361.8728 g 2 species in reaction 2.000 Cs+ 1.000 SO4-- * log10 K(298 K) = 0.5800 a= 0.5799998943 b= 0 c= 0 d= -928.138 e= 0 f= 0 Cs2MoO4(s) type= formula= Cs2MoO4 mole vol.= 0.0000 cc mole wt.= 425.7468 g 2 species in reaction 2.000 Cs+ 1.000 MoO4-- * log10 K(298 K) = 2.2100 a= 2.210002244 b= 0 c= 0 d= -90.4163 e= 0 f= 0 Cs2O(s) type= formula= Cs2O mole vol.= 0.0000 cc mole wt.= 281.8098 g 3 species in reaction 2.000 Cs+ -2.000 H+ 1.000 H2O * log10 K(298 K) = 89.6800 a= 89.67997491 b= 0 c= 0 d= 23822.1 e= 0 f= 0 CsBr(cr) type= formula= CsBr mole vol.= 0.0000 cc mole wt.= 212.8094 g 2 species in reaction 1.000 Cs+ 1.000 Br- * log10 K(298 K) = 0.7200 a= 0.7199855174 b= 0 c= 0 d= -1368 e= 0 f= 0 CsCl(cr) type= formula= CsCl mole vol.= 0.0000 cc mole wt.= 168.3581 g 2 species in reaction 1.000 Cs+ 1.000 Cl- * log10 K(298 K) = 1.5500 a= 1.549998873 b= 0 c= 0 d= -899.984 e= 0 f= 0 Cu(SeO3):2H2O(s) type= formula= Cu(SeO3):2H2O mole vol.= 0.0000 cc mole wt.= 226.5326 g 3 species in reaction 1.000 Cu++ 1.000 SeO3-- 2.000 H2O * log10 K(298 K) = -9.5000 a= -9.499955677 b= 0 c= 0 d= 800.218 e= 0 f= 0 Cu(SeO4):5H2O(s) type= formula= Cu(SeO4):5H2O mole vol.= 0.0000 cc mole wt.= 296.5760 g 3 species in reaction 1.000 Cu++ 1.000 SeO4-- 5.000 H2O * log10 K(298 K) = -2.4400 a= -2.440001692 b= 0 c= 0 d= -291.463 e= 0 f= 0 Cu(cr) type= formula= Cu mole vol.= 0.0000 cc mole wt.= 63.5460 g 2 species in reaction 1.000 Cu++ 2.000 e- * log10 K(298 K) = -11.3900 a= -11.39000635 b= 0 c= 0 d= -3389.96 e= 0 f= 0 Cu2Se(alfa) type= formula= Cu2Se mole vol.= 0.0000 cc mole wt.= 206.0520 g 3 species in reaction 2.000 Cu+ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -45.8898 a= -45.88983723 b= 0 c= 0 d= -11331.5 e= 0 f= 0 Cu3(AsO4)2(s) type= formula= Cu3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 468.4732 g 2 species in reaction 3.000 Cu++ 2.000 AsO4--- * log10 K(298 K) = -34.8800 a= -34.88 b= 0 c= 0 d= 0 e= 0 f= 0 CuSe(alfa) type= formula= CuSe mole vol.= 0.0000 cc mole wt.= 142.5060 g 3 species in reaction 1.000 Cu++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -25.4600 a= -25.45998438 b= 0 c= 0 d= -6200.12 e= 0 f= 0 CuSe(beta) type= formula= CuSe mole vol.= 0.0000 cc mole wt.= 142.5060 g 3 species in reaction 1.000 Cu++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -25.1300 a= -25.12998744 b= 0 c= 0 d= -6059.09 e= 0 f= 0 Dawsonite type= formula= NaAl(CO3)(OH)2 mole vol.= 0.0000 cc mole wt.= 143.9931 g 5 species in reaction 1.000 Na+ 1.000 Al+++ -2.000 H+ 1.000 CO3-- 2.000 H2O * log10 K(298 K) = -6.0000 a= -6.000017994 b= 0 c= 0 d= 3219.15 e= 0 f= 0 Diaspore type= formula= AlO(OH) mole vol.= 0.0000 cc mole wt.= 59.9874 g 3 species in reaction 1.000 Al+++ -3.000 H+ 2.000 H2O * log10 K(298 K) = 6.8700 a= 6.869999044 b= 0 c= 0 d= 5680.92 e= 0 f= 0 Dickite type= formula= Al2Si2O5(OH)4 mole vol.= 0.0000 cc mole wt.= 258.1566 g 4 species in reaction 2.000 Al+++ -6.000 H+ 2.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 9.3900 a= 9.389967399 b= 0 c= 0 d= 9674.6 e= 0 f= 0 Dolomite type= formula= CaMg(CO3)2 mole vol.= 64.3700 cc mole wt.= 184.3990 g 3 species in reaction 1.000 Ca++ 1.000 Mg++ 2.000 CO3-- * log10 K(298 K) = -17.1300 a= -17.12998385 b= 0 c= 0 d= 1878.32 e= 0 f= 0 Downeyite type= formula= SeO2 mole vol.= 0.0000 cc mole wt.= 110.9580 g 3 species in reaction 2.000 H+ 1.000 SeO3-- -1.000 H2O * log10 K(298 K) = -8.1500 a= -8.149999557 b= 0 c= 0 d= -212.068 e= 0 f= 0 Eastonite type= formula= KMg2Al3Si2O10(OH)2 mole vol.= 147.5100 cc mole wt.= 418.8276 g 6 species in reaction 2.000 Mg++ 1.000 K+ 3.000 Al+++ -14.000 H+ 2.000 H4(SiO4) 4.000 H2O * log10 K(298 K) = 46.2999 a= 46.29990517 b= 0 c= 0 d= 27062.6 e= 0 f= 0 Epsonite type= formula= Mg(SO4):7H2O mole vol.= 0.0000 cc mole wt.= 246.4706 g 3 species in reaction 1.000 Mg++ 1.000 SO4-- 7.000 H2O * log10 K(298 K) = -1.8800 a= -1.880000572 b= 0 c= 0 d= -574.047 e= 0 f= 0 Ettringite type= formula= Ca6Al2(SO4)3(OH)12:26H2O mole vol.= 710.3200 cc mole wt.= 1255.0846 g 5 species in reaction 6.000 Ca++ 2.000 Al+++ -12.000 H+ 3.000 SO4-- 38.000 H2O * log10 K(298 K) = 56.9701 a= 56.97009066 b= 0 c= 0 d= 19839.9 e= 0 f= 0 Ettringite-Fe type= formula= Ca6Fe2(SO4)3(OH)12:26H2O mole vol.= 711.8000 cc mole wt.= 1312.8156 g 5 species in reaction 6.000 Ca++ 2.000 Fe+++ -12.000 H+ 3.000 SO4-- 38.000 H2O * log10 K(298 K) = 54.5501 a= 54.5501112 b= 0 c= 0 d= 17986.4 e= 0 f= 0 Eu(CO3)(OH)(cr) type= formula= Eu(CO3)(OH) mole vol.= 0.0000 cc mole wt.= 228.9799 g 4 species in reaction 1.000 Eu+++ -1.000 H+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -9.6300 a= -9.629995657 b= 0 c= 0 d= 2266.15 e= 0 f= 0 Eu(CO3)(OH):0.5H2O(s) type= formula= Eu(CO3)(OH):0.5H2O mole vol.= 0.0000 cc mole wt.= 237.9873 g 4 species in reaction 1.000 Eu+++ -1.000 H+ 1.000 CO3-- 1.500 H2O * log10 K(298 K) = -7.7999 a= -7.799941573 b= 0 c= 0 d= 2919.86 e= 0 f= 0 Eu(NO3)3:6H2O(s) type= formula= Eu(NO3)3:6H2O mole vol.= 0.0000 cc mole wt.= 446.0649 g 3 species in reaction 1.000 Eu+++ 3.000 NO3- 6.000 H2O * log10 K(298 K) = 1.8400 a= 1.839998144 b= 0 c= 0 d= -879.874 e= 0 f= 0 Eu(OH)3(am) type= formula= Eu(OH)3 mole vol.= 0.0000 cc mole wt.= 202.9857 g 3 species in reaction 1.000 Eu+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 17.6000 a= 17.6 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(OH)3(cr) type= formula= Eu(OH)3 mole vol.= 0.0000 cc mole wt.= 202.9857 g 3 species in reaction 1.000 Eu+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 15.4600 a= 15.46001811 b= 0 c= 0 d= 6662.03 e= 0 f= 0 Eu(PO4):xH2O(s) type= formula= Eu(PO4) mole vol.= 0.0000 cc mole wt.= 246.9348 g 3 species in reaction 1.000 Eu+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -4.8400 a= -4.84 b= 0 c= 0 d= 0 e= 0 f= 0 Eu(cr) type= formula= Eu mole vol.= 0.0000 cc mole wt.= 151.9650 g 2 species in reaction 1.000 Eu+++ 3.000 e- * log10 K(298 K) = 100.6401 a= 100.6400678 b= 0 c= 0 d= 31618.3 e= 0 f= 0 Eu2(CO3)3:3H2O(s) type= formula= Eu2(CO3)3:3H2O mole vol.= 0.0000 cc mole wt.= 537.9984 g 3 species in reaction 2.000 Eu+++ 3.000 CO3-- 3.000 H2O * log10 K(298 K) = -35.0000 a= -35 b= 0 c= 0 d= 0 e= 0 f= 0 Eu2(SO4)3:8H2O(s) type= formula= Eu2(SO4)3:8H2O mole vol.= 0.0000 cc mole wt.= 736.2344 g 3 species in reaction 2.000 Eu+++ 3.000 SO4-- 8.000 H2O * log10 K(298 K) = -10.1999 a= -10.1999493 b= 0 c= 0 d= 4751.9 e= 0 f= 0 Eu2O3(cubic) type= formula= Eu2O3 mole vol.= 0.0000 cc mole wt.= 351.9270 g 3 species in reaction 2.000 Eu+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 52.4001 a= 52.40011845 b= 0 c= 0 d= 21177.6 e= 0 f= 0 Eu2O3(monoclinic) type= formula= Eu2O3 mole vol.= 0.0000 cc mole wt.= 351.9270 g 3 species in reaction 2.000 Eu+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 53.4699 a= 53.46994087 b= 0 c= 0 d= 21860.4 e= 0 f= 0 Eu3O4(s) type= formula= Eu3O4 mole vol.= 0.0000 cc mole wt.= 519.8910 g 4 species in reaction 3.000 Eu+++ -8.000 H+ 1.000 e- 4.000 H2O * log10 K(298 K) = 93.0198 a= 93.01980766 b= 0 c= 0 d= 35976.6 e= 0 f= 0 EuBr3(s) type= formula= EuBr3 mole vol.= 0.0000 cc mole wt.= 391.6770 g 2 species in reaction 1.000 Eu+++ 3.000 Br- * log10 K(298 K) = 30.1900 a= 30.19 b= 0 c= 0 d= 0 e= 0 f= 0 EuCl(OH)2(s) type= formula= EuCl(OH)2 mole vol.= 0.0000 cc mole wt.= 221.4315 g 4 species in reaction 1.000 Eu+++ -2.000 H+ 1.000 Cl- 2.000 H2O * log10 K(298 K) = 9.1300 a= 9.13 b= 0 c= 0 d= 0 e= 0 f= 0 EuCl2(s) type= formula= EuCl2 mole vol.= 0.0000 cc mole wt.= 222.8704 g 3 species in reaction 1.000 Eu+++ 1.000 e- 2.000 Cl- * log10 K(298 K) = 11.2200 a= 11.2199944 b= 0 c= 0 d= 6032.19 e= 0 f= 0 EuCl3(s) type= formula= EuCl3 mole vol.= 0.0000 cc mole wt.= 258.3231 g 2 species in reaction 1.000 Eu+++ 3.000 Cl- * log10 K(298 K) = 19.7200 a= 19.7199703 b= 0 c= 0 d= 8909.22 e= 0 f= 0 EuCl3:6H2O(s) type= formula= EuCl3:6H2O mole vol.= 0.0000 cc mole wt.= 366.4119 g 3 species in reaction 1.000 Eu+++ 3.000 Cl- 6.000 H2O * log10 K(298 K) = 5.2000 a= 5.199998352 b= 0 c= 0 d= 2163.2 e= 0 f= 0 EuF3(s) type= formula= EuF3 mole vol.= 0.0000 cc mole wt.= 208.9602 g 2 species in reaction 1.000 Eu+++ 3.000 F- * log10 K(298 K) = -18.5000 a= -18.5 b= 0 c= 0 d= 0 e= 0 f= 0 EuF3:0.5H2O(s) type= formula= EuF3:0.5H2O mole vol.= 0.0000 cc mole wt.= 217.9676 g 3 species in reaction 1.000 Eu+++ 3.000 F- .500 H2O * log10 K(298 K) = -17.2000 a= -17.2 b= 0 c= 0 d= 0 e= 0 f= 0 EuO(s) type= formula= EuO mole vol.= 0.0000 cc mole wt.= 167.9640 g 4 species in reaction 1.000 Eu+++ -2.000 H+ 1.000 e- 1.000 H2O * log10 K(298 K) = 44.7700 a= 44.77001534 b= 0 c= 0 d= 15670.7 e= 0 f= 0 EuOCl(s) type= formula= EuOCl mole vol.= 0.0000 cc mole wt.= 203.4167 g 4 species in reaction 1.000 Eu+++ -2.000 H+ 1.000 Cl- 1.000 H2O * log10 K(298 K) = 15.8100 a= 15.80996827 b= 0 c= 0 d= 8082.36 e= 0 f= 0 EuPO4:H2O(cr) type= formula= EuPO4:H2O mole vol.= 0.0000 cc mole wt.= 264.9496 g 4 species in reaction 1.000 Eu+++ -2.000 H+ 1.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -6.4400 a= -6.44 b= 0 c= 0 d= 0 e= 0 f= 0 EuSO4(s) type= formula= EuSO4 mole vol.= 0.0000 cc mole wt.= 248.0270 g 3 species in reaction 1.000 Eu+++ 1.000 e- 1.000 SO4-- * log10 K(298 K) = -2.5200 a= -2.520040802 b= 0 c= 0 d= 4850.62 e= 0 f= 0 Fayalite type= formula= Fe2(SiO4) mole vol.= 0.0000 cc mole wt.= 203.7755 g 3 species in reaction 2.000 Fe++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 19.5100 a= 19.50999903 b= 0 c= 0 d= 8516.89 e= 0 f= 0 Fe(OH)2(cr) type= formula= Fe(OH)2 mole vol.= 0.0000 cc mole wt.= 89.8608 g 3 species in reaction 1.000 Fe++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 12.7600 a= 12.75998414 b= 0 c= 0 d= 4577.85 e= 0 f= 0 Fe(PO4)(cr) type= formula= Fe(PO4) mole vol.= 0.0000 cc mole wt.= 150.8168 g 3 species in reaction 1.000 Fe+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -6.2400 a= -6.240005457 b= 0 c= 0 d= 971.544 e= 0 f= 0 Fe(cr,alpha) type= formula= Fe mole vol.= 0.0000 cc mole wt.= 55.8470 g 2 species in reaction 1.000 Fe++ 2.000 e- * log10 K(298 K) = 15.8600 a= 15.85999834 b= 0 c= 0 d= 4701.02 e= 0 f= 0 Fe1.04Se(beta) type= formula= Fe1.04Se mole vol.= 0.0000 cc mole wt.= 137.0409 g 4 species in reaction 1.040 Fe++ -1.000 H+ .080 e- 1.000 HSe- * log10 K(298 K) = -3.4000 a= -3.399993909 b= 0 c= 0 d= 506.666 e= 0 f= 0 Fe2(SeO3)3:6H2O(s) type= formula= Fe2(SeO3)3:6H2O mole vol.= 0.0000 cc mole wt.= 600.6538 g 3 species in reaction 2.000 Fe+++ 3.000 SeO3-- 6.000 H2O * log10 K(298 K) = -41.5800 a= -41.58 b= 0 c= 0 d= 0 e= 0 f= 0 Fe3Se4(gamma) type= formula= Fe3Se4 mole vol.= 0.0000 cc mole wt.= 483.3810 g 4 species in reaction 3.000 Fe++ -4.000 H+ -2.000 e- 4.000 HSe- * log10 K(298 K) = -25.5900 a= -25.58998392 b= 0 c= 0 d= -1159.59 e= 0 f= 0 Fe5(OH)(PO4)3(s) type= formula= Fe5(OH)(PO4)3 mole vol.= 0.0000 cc mole wt.= 581.1513 g 4 species in reaction 5.000 Fe++ -7.000 H+ 3.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -402.3200 a= -402.32 b= 0 c= 0 d= 0 e= 0 f= 0 Fe7Se8(alfa) type= formula= Fe7Se8 mole vol.= 0.0000 cc mole wt.= 1022.6090 g 4 species in reaction 7.000 Fe++ -8.000 H+ -2.000 e- 8.000 HSe- * log10 K(298 K) = -35.5900 a= -35.5899803 b= 0 c= 0 d= 2721.37 e= 0 f= 0 FeAl2O4(s) type= formula= FeAl2O4 mole vol.= 0.0000 cc mole wt.= 173.8060 g 4 species in reaction 1.000 Fe++ 2.000 Al+++ -8.000 H+ 4.000 H2O * log10 K(298 K) = 27.2000 a= 27.2 b= 0 c= 0 d= 0 e= 0 f= 0 FeMoO4(s) type= formula= FeMoO4 mole vol.= 0.0000 cc mole wt.= 215.7830 g 2 species in reaction 1.000 Fe++ 1.000 MoO4-- * log10 K(298 K) = -8.3500 a= -8.349985712 b= 0 c= 0 d= 602.148 e= 0 f= 0 FeO(s) type= formula= FeO mole vol.= 0.0000 cc mole wt.= 71.8460 g 3 species in reaction 1.000 Fe++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 13.3700 a= 13.37001014 b= 0 c= 0 d= 5422.63 e= 0 f= 0 FeS(am) type= formula= FeS mole vol.= 0.0000 cc mole wt.= 87.9130 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -2.9500 a= -2.95 b= 0 c= 0 d= 0 e= 0 f= 0 Ferrihydrite(am) type= formula= Fe(OH)3 mole vol.= 0.0000 cc mole wt.= 106.8677 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 2.5400 a= 2.54 b= 0 c= 0 d= 0 e= 0 f= 0 Ferroselite type= formula= FeSe2 mole vol.= 0.0000 cc mole wt.= 213.7670 g 4 species in reaction 1.000 Fe++ -2.000 H+ -2.000 e- 2.000 HSe- * log10 K(298 K) = -17.1200 a= -17.1200107 b= 0 c= 0 d= -2470.65 e= 0 f= 0 Ferrosilite type= formula= FeSiO3 mole vol.= 0.0000 cc mole wt.= 131.9295 g 4 species in reaction 1.000 Fe++ -2.000 H+ 1.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 32.7100 a= 32.71 b= 0 c= 0 d= 0 e= 0 f= 0 Ferryhydrite type= formula= Fe(OH)3 mole vol.= 0.0000 cc mole wt.= 106.8677 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 1.1900 a= 1.19 b= 0 c= 0 d= 0 e= 0 f= 0 Fluorapatite type= formula= Ca5F(PO4)3 mole vol.= 0.0000 cc mole wt.= 504.2978 g 4 species in reaction 5.000 Ca++ -6.000 H+ 1.000 F- 3.000 H2(PO4)- * log10 K(298 K) = -0.9099 a= -0.9099413215 b= 0 c= 0 d= 6038.36 e= 0 f= 0 Fluorite type= formula= CaF2 mole vol.= 0.0000 cc mole wt.= 78.0748 g 2 species in reaction 1.000 Ca++ 2.000 F- * log10 K(298 K) = -10.6000 a= -10.59999977 b= 0 c= 0 d= -1024.98 e= 0 f= 0 Foshagite type= formula= Ca4Si3O9(OH)2:0.5H2O mole vol.= 160.6600 cc mole wt.= 431.5807 g 4 species in reaction 4.000 Ca++ -8.000 H+ 3.000 H4(SiO4) -.500 H2O * log10 K(298 K) = 65.9599 a= 65.95989081 b= 0 c= 0 d= 19861.1 e= 0 f= 0 Friedel-salt type= formula= Ca4Al2(OH)12Cl2:4H2O mole vol.= 276.2400 cc mole wt.= 561.3224 g 5 species in reaction 4.000 Ca++ 2.000 Al+++ -12.000 H+ 2.000 Cl- 16.000 H2O * log10 K(298 K) = 74.9301 a= 74.93010138 b= 0 c= 0 d= 25396 e= 0 f= 0 Galena type= formula= PbS mole vol.= 0.0000 cc mole wt.= 239.2660 g 3 species in reaction 1.000 Pb++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -14.8400 a= -14.8399947 b= 0 c= 0 d= -4332.25 e= 0 f= 0 Gaylussite type= formula= CaNa2(CO3)2:5H2O mole vol.= 0.0000 cc mole wt.= 296.1476 g 4 species in reaction 1.000 Ca++ 2.000 Na+ 2.000 CO3-- 5.000 H2O * log10 K(298 K) = -9.4300 a= -9.429997837 b= 0 c= 0 d= -1624.41 e= 0 f= 0 Gibbsite type= formula= Al(OH)3 mole vol.= 0.0000 cc mole wt.= 78.0022 g 3 species in reaction 1.000 Al+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 7.7399 a= 7.739942814 b= 0 c= 0 d= 5368.77 e= 0 f= 0 Gismondine type= formula= Ca2Al4Si4O16:9H2O mole vol.= 315.0700 cc mole wt.= 718.5412 g 5 species in reaction 2.000 Ca++ 4.000 Al+++ -16.000 H+ 4.000 H4(SiO4) 9.000 H2O * log10 K(298 K) = 38.9700 a= 38.97001072 b= 0 c= 0 d= 24917.8 e= 0 f= 0 Glaserite type= formula= Na2K6(SO4)4 mole vol.= 0.0000 cc mole wt.= 664.8174 g 3 species in reaction 6.000 K+ 2.000 Na+ 4.000 SO4-- * log10 K(298 K) = -7.6100 a= -7.609996347 b= 0 c= 0 d= -4093.02 e= 0 f= 0 Glauberite type= formula= Na2Ca(SO4)2 mole vol.= 0.0000 cc mole wt.= 278.1816 g 3 species in reaction 1.000 Ca++ 2.000 Na+ 2.000 SO4-- * log10 K(298 K) = 1.9700 a= 1.970000773 b= 0 c= 0 d= 687.394 e= 0 f= 0 Glauconite type= formula= (K0.75Mg0.25Fe1.5Al0.25)(Al0.25Si3.75)O10(OH)2 mole vol.= 139.7600 cc mole wt.= 431.9857 g 8 species in reaction .250 Mg++ .750 K+ 1.250 Fe+++ .250 Fe++ .500 Al+++ -7.000 H+ 3.750 H4(SiO4) -3.000 H2O * log10 K(298 K) = 1.8600 a= 1.860048348 b= 0 c= 0 d= 6772.76 e= 0 f= 0 Goethite type= formula= FeOOH mole vol.= 0.0000 cc mole wt.= 88.8529 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 2.000 H2O * log10 K(298 K) = 0.3900 a= 0.3900193694 b= 0 c= 0 d= 3214.51 e= 0 f= 0 Greenalite type= formula= Fe3Si2O5(OH)4 mole vol.= 115.0000 cc mole wt.= 371.7346 g 4 species in reaction 3.000 Fe++ -6.000 H+ 2.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 21.7600 a= 21.76000455 b= 0 c= 0 d= 9256.73 e= 0 f= 0 Gypsum type= formula= CaSO4:2H2O mole vol.= 0.0000 cc mole wt.= 172.1696 g 3 species in reaction 1.000 Ca++ 1.000 SO4-- 2.000 H2O * log10 K(298 K) = -4.6100 a= -4.609998298 b= 0 c= 0 d= 54.8452 e= 0 f= 0 Gyrolite type= formula= Ca2Si3O7.5(OH):2H2O mole vol.= 137.3400 cc mole wt.= 337.4415 g 4 species in reaction 2.000 Ca++ -4.000 H+ 3.000 H4(SiO4) -1.500 H2O * log10 K(298 K) = 22.3400 a= 22.34001242 b= 0 c= 0 d= 6416.74 e= 0 f= 0 H2MoO4(s) type= formula= H2MoO4 mole vol.= 0.0000 cc mole wt.= 161.9518 g 2 species in reaction 2.000 H+ 1.000 MoO4-- * log10 K(298 K) = -13.1700 a= -13.17001464 b= 0 c= 0 d= -2547.07 e= 0 f= 0 H3Cit:H2O(cr) type= formula= H3COOCH2COHCOOCH2COO:H2O mole vol.= 0.0000 cc mole wt.= 210.1370 g 3 species in reaction 3.000 H+ 1.000 Cit--- 1.000 H2O * log10 K(298 K) = -12.9400 a= -12.93999832 b= 0 c= 0 d= -1708.56 e= 0 f= 0 H4Edta(cr) type= formula= (CH2COOH)4N(CH2)2N mole vol.= 0.0000 cc mole wt.= 292.2418 g 2 species in reaction 4.000 H+ 1.000 Edta---- * log10 K(298 K) = -27.2200 a= -27.21998611 b= 0 c= 0 d= -2872.85 e= 0 f= 0 HBeidellite-Ca type= formula= Ca0.17Al2.34Si3.66O10(OH)2:4.45H2O mole vol.= 214.5500 cc mole wt.= 446.9126 g 5 species in reaction .170 Ca++ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.810 H2O * log10 K(298 K) = 2.0900 a= 2.089954553 b= 0 c= 0 d= 8383.07 e= 0 f= 0 HBeidellite-K type= formula= K0.34Al2.34Si3.66O10(OH)2:1.96H2O mole vol.= 168.6500 cc mole wt.= 408.5359 g 5 species in reaction .340 K+ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) -.680 H2O * log10 K(298 K) = 2.2200 a= 2.219972162 b= 0 c= 0 d= 8730.42 e= 0 f= 0 HBeidellite-Mg type= formula= Mg0.17Al2.34Si3.66O10(OH)2:4.61H2O mole vol.= 212.6100 cc mole wt.= 447.1135 g 5 species in reaction .170 Mg++ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.970 H2O * log10 K(298 K) = 2.2100 a= 2.210039678 b= 0 c= 0 d= 8351.73 e= 0 f= 0 HBeidellite-Na type= formula= Na0.34Al2.34Si3.66O10(OH)2:3.84H2O mole vol.= 201.9400 cc mole wt.= 436.9268 g 5 species in reaction .340 Na+ 2.340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.200 H2O * log10 K(298 K) = 1.8300 a= 1.830005283 b= 0 c= 0 d= 8959.26 e= 0 f= 0 HMontmorillonite-BCCa type= formula= Ca0.17Mg0.34Al1.66Si4O10(OH)2:4.45H2O mole vol.= 216.0200 cc mole wt.= 446.3779 g 6 species in reaction .170 Ca++ .340 Mg++ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) .450 H2O * log10 K(298 K) = 2.1801 a= 2.180051115 b= 0 c= 0 d= 6192.71 e= 0 f= 0 HMontmorillonite-BCK type= formula= K0.34Mg0.34Al1.66Si4O10(OH)2:1.96H2O mole vol.= 170.1300 cc mole wt.= 408.0012 g 6 species in reaction .340 Mg++ .340 K+ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) -2.040 H2O * log10 K(298 K) = 2.0700 a= 2.070043518 b= 0 c= 0 d= 6467.93 e= 0 f= 0 HMontmorillonite-BCMg type= formula= Mg0.17Mg0.34Al1.66Si4O10(OH)2:4.61H2O mole vol.= 214.0800 cc mole wt.= 446.5789 g 5 species in reaction .510 Mg++ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) .610 H2O * log10 K(298 K) = 2.3300 a= 2.330030488 b= 0 c= 0 d= 6169.15 e= 0 f= 0 HMontmorillonite-BCNa type= formula= Na0.34Mg0.34Al1.66Si4O10(OH)2:3.84H2O mole vol.= 203.4200 cc mole wt.= 436.3922 g 6 species in reaction .340 Mg++ .340 Na+ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) -.160 H2O * log10 K(298 K) = 1.7700 a= 1.770028291 b= 0 c= 0 d= 6721.83 e= 0 f= 0 HMontmorillonite-HCCa type= formula= Ca0.3Mg0.6Al1.4Si4O10(OH)2:4.45H2O mole vol.= 220.7600 cc mole wt.= 450.8922 g 6 species in reaction .300 Ca++ .600 Mg++ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) .450 H2O * log10 K(298 K) = 6.1500 a= 6.150045346 b= 0 c= 0 d= 7006.3 e= 0 f= 0 HMontmorillonite-HCK type= formula= K0.6Mg0.6Al1.4Si4O10(OH)2:1.96H2O mole vol.= 174.1800 cc mole wt.= 417.4709 g 6 species in reaction .600 Mg++ .600 K+ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) -2.040 H2O * log10 K(298 K) = 4.2400 a= 4.239950461 b= 0 c= 0 d= 6253.92 e= 0 f= 0 HMontmorillonite-HCMg type= formula= Mg0.3Mg0.6Al1.4Si4O10(OH)2:4.61H2O mole vol.= 215.1800 cc mole wt.= 449.0426 g 5 species in reaction .900 Mg++ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) .610 H2O * log10 K(298 K) = 6.4700 a= 6.469990525 b= 0 c= 0 d= 6984.31 e= 0 f= 0 HMontmorillonite-HCNa type= formula= Na0.6Mg0.6Al1.4Si4O10(OH)2:3.84H2O mole vol.= 206.9200 cc mole wt.= 441.6736 g 6 species in reaction .600 Mg++ .600 Na+ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) -.160 H2O * log10 K(298 K) = 4.5400 a= 4.539971357 b= 0 c= 0 d= 6920.53 e= 0 f= 0 HNontronite-Ca type= formula= Ca0.17Fe1.67Al0.67Si3.66O10(OH)2:4.45H2O mole vol.= 214.1800 cc mole wt.= 495.1179 g 6 species in reaction .170 Ca++ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.810 H2O * log10 K(298 K) = -2.8500 a= -2.850018917 b= 0 c= 0 d= 5738.07 e= 0 f= 0 HNontronite-K type= formula= K0.34Fe1.67Al0.67Si3.66O10(OH)2:1.96H2O mole vol.= 168.2800 cc mole wt.= 456.7413 g 6 species in reaction .340 K+ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) -.680 H2O * log10 K(298 K) = 0.4200 a= 0.4200427805 b= 0 c= 0 d= 6085.94 e= 0 f= 0 HNontronite-Mg type= formula= Mg0.17Fe1.67Al0.67Si3.66O10(OH)2:4.61H2O mole vol.= 212.6700 cc mole wt.= 495.3189 g 6 species in reaction .170 Mg++ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.970 H2O * log10 K(298 K) = -2.5600 a= -2.560033792 b= 0 c= 0 d= 5706.73 e= 0 f= 0 HNontronite-Na type= formula= Na0.34Fe1.67Al0.67Si3.66O10(OH)2:3.84H2O mole vol.= 201.5700 cc mole wt.= 485.1322 g 6 species in reaction .340 Na+ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.200 H2O * log10 K(298 K) = -3.1100 a= -3.110001727 b= 0 c= 0 d= 6314.25 e= 0 f= 0 HSaponite-Ca type= formula= Ca0.17Mg3Al0.34Si3.66O10(OH)2:4.45H2O mole vol.= 223.0100 cc mole wt.= 465.8646 g 6 species in reaction .170 Ca++ 3.000 Mg++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.810 H2O * log10 K(298 K) = 28.3600 a= 28.36001934 b= 0 c= 0 d= 12518.4 e= 0 f= 0 HSaponite-FeCa type= formula= Ca0.17Mg2FeAl0.34Si3.66O10(OH)2:4.45H2O mole vol.= 225.5900 cc mole wt.= 497.4066 g 7 species in reaction .170 Ca++ 2.000 Mg++ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.810 H2O * log10 K(298 K) = 27.9499 a= 27.94991201 b= 0 c= 0 d= 12303.7 e= 0 f= 0 HSaponite-FeK type= formula= K0.34Mg2FeAl0.34Si3.66O10(OH)2:1.96H2O mole vol.= 179.6900 cc mole wt.= 459.0299 g 7 species in reaction 2.000 Mg++ .340 K+ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -.680 H2O * log10 K(298 K) = 28.0900 a= 28.08997433 b= 0 c= 0 d= 12651.6 e= 0 f= 0 HSaponite-FeMg type= formula= Mg0.17Mg2FeAl0.34Si3.66O10(OH)2:4.61H2O mole vol.= 223.8500 cc mole wt.= 497.6075 g 6 species in reaction 2.170 Mg++ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.970 H2O * log10 K(298 K) = 28.0500 a= 28.0500083 b= 0 c= 0 d= 12272.9 e= 0 f= 0 HSaponite-FeNa type= formula= Na0.34Mg2FeAl0.34Si3.66O10(OH)2:3.84H2O mole vol.= 212.9900 cc mole wt.= 487.4208 g 7 species in reaction 2.000 Mg++ .340 Na+ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.200 H2O * log10 K(298 K) = 27.7000 a= 27.69999628 b= 0 c= 0 d= 12879.9 e= 0 f= 0 HSaponite-K type= formula= K0.34Mg3Al0.34Si3.66O10(OH)2:1.96H2O mole vol.= 177.1100 cc mole wt.= 427.4879 g 6 species in reaction 3.000 Mg++ .340 K+ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -.680 H2O * log10 K(298 K) = 28.4901 a= 28.49008165 b= 0 c= 0 d= 12866.3 e= 0 f= 0 HSaponite-Mg type= formula= Mg0.17Mg3Al0.34Si3.66O10(OH)2:4.61H2O mole vol.= 221.0800 cc mole wt.= 466.0655 g 5 species in reaction 3.170 Mg++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.970 H2O * log10 K(298 K) = 28.4801 a= 28.48013862 b= 0 c= 0 d= 12487.1 e= 0 f= 0 HSaponite-Na type= formula= Na0.34Mg3Al0.34Si3.66O10(OH)2:3.84H2O mole vol.= 210.4000 cc mole wt.= 455.8788 g 6 species in reaction 3.000 Mg++ .340 Na+ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) 1.200 H2O * log10 K(298 K) = 28.0299 a= 28.02989846 b= 0 c= 0 d= 13073.4 e= 0 f= 0 HVermiculite-Ca type= formula= Ca0.43Mg3.00Si3.14Al0.86O10(OH)2:4.45H2O mole vol.= 219.3600 cc mole wt.= 475.7108 g 6 species in reaction .430 Ca++ 3.000 Mg++ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) 3.890 H2O * log10 K(298 K) = 97.8200 a= 97.81996295 b= 0 c= 0 d= 35677.9 e= 0 f= 0 HVermiculite-K type= formula= K0.86Mg3.00Si3.14Al0.86O10(OH)2:1.96H2O mole vol.= 175.4900 cc mole wt.= 447.2449 g 6 species in reaction 3.000 Mg++ .860 K+ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) 1.400 H2O * log10 K(298 K) = 87.6801 a= 87.68011103 b= 0 c= 0 d= 31849.4 e= 0 f= 0 HVermiculite-Mg type= formula= Mg0.43Mg3.00Si3.14Al0.86O10(OH)2:4.61H2O mole vol.= 222.2400 cc mole wt.= 471.8107 g 5 species in reaction 3.430 Mg++ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) 4.050 H2O * log10 K(298 K) = 68.1800 a= 68.18003049 b= 0 c= 0 d= 27337.8 e= 0 f= 0 HVermiculite-Na type= formula= Na0.86Mg3.00Si3.14Al0.86O10(OH)2:3.84H2O mole vol.= 210.1200 cc mole wt.= 467.2594 g 6 species in reaction 3.000 Mg++ .860 Na+ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) 3.280 H2O * log10 K(298 K) = 96.5199 a= 96.51992443 b= 0 c= 0 d= 35171.6 e= 0 f= 0 Halite type= formula= NaCl mole vol.= 0.0000 cc mole wt.= 58.4425 g 2 species in reaction 1.000 Na+ 1.000 Cl- * log10 K(298 K) = 1.5900 a= 1.589999368 b= 0 c= 0 d= -193.264 e= 0 f= 0 Halloysite type= formula= Al2Si2O5(OH)4 mole vol.= 0.0000 cc mole wt.= 258.1566 g 4 species in reaction 2.000 Al+++ -6.000 H+ 2.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 10.3201 a= 10.32011298 b= 0 c= 0 d= 10050.7 e= 0 f= 0 Hausmannite type= formula= Mn3O4 mole vol.= 0.0000 cc mole wt.= 228.8100 g 4 species in reaction 3.000 Mn++ -8.000 H+ -2.000 e- 4.000 H2O * log10 K(298 K) = 61.3200 a= 61.32 b= 0 c= 0 d= 0 e= 0 f= 0 Heazlewoodite type= formula= Ni3S2 mole vol.= 0.0000 cc mole wt.= 240.2020 g 4 species in reaction 3.000 Ni++ -2.000 H+ 2.000 e- 2.000 HS- * log10 K(298 K) = -17.2300 a= -17.22996939 b= 0 c= 0 d= -1021.9 e= 0 f= 0 Hematite type= formula= Fe2O3 mole vol.= 0.0000 cc mole wt.= 159.6910 g 3 species in reaction 2.000 Fe+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = -1.0200 a= -1.020022807 b= 0 c= 0 d= 6461.5 e= 0 f= 0 Hemicarboaluminate type= formula= Ca6O6:Al4O6:CaCO3:Ca(OH)2:21H2O mole vol.= 569.0200 cc mole wt.= 1092.8706 g 5 species in reaction 8.000 Ca++ 4.000 Al+++ -26.000 H+ 1.000 CO3-- 35.000 H2O * log10 K(298 K) = 173.1999 a= 173.19989 b= 0 c= 0 d= 62109.8 e= 0 f= 0 Herzenbergite type= formula= SnS mole vol.= 0.0000 cc mole wt.= 150.7760 g 3 species in reaction 1.000 Sn++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -16.2100 a= -16.20999708 b= 0 c= 0 d= -4371.06 e= 0 f= 0 Heulandite_Ca type= formula= Ca1.07Al2.14Si6.86O18:6.17H2O mole vol.= 322.0600 cc mole wt.= 692.4237 g 5 species in reaction 1.070 Ca++ 2.140 Al+++ -8.560 H+ 6.860 H4(SiO4) -3.270 H2O * log10 K(298 K) = 2.4600 a= 2.459976555 b= 0 c= 0 d= 8102.1 e= 0 f= 0 Heulandite_Na type= formula= Na2.14Al2.14Si6.86O18:6.17H2O mole vol.= 325.0000 cc mole wt.= 698.7384 g 5 species in reaction 2.140 Na+ 2.140 Al+++ -8.560 H+ 6.860 H4(SiO4) -3.270 H2O * log10 K(298 K) = 2.8001 a= 2.800052708 b= 0 c= 0 d= 7457.91 e= 0 f= 0 Hexahydrite type= formula= Mg(SO4):6H2O mole vol.= 0.0000 cc mole wt.= 228.4558 g 3 species in reaction 1.000 Mg++ 1.000 SO4-- 6.000 H2O * log10 K(298 K) = -1.6400 a= -1.63999671 b= 0 c= 0 d= 241.58 e= 0 f= 0 Hf(HPO4)2:H2O(s) type= formula= Hf(HPO4)2:H2O mole vol.= 0.0000 cc mole wt.= 388.4602 g 4 species in reaction -2.000 H+ 2.000 H2(PO4)- 1.000 Hf++++ 1.000 H2O * log10 K(298 K) = -21.0500 a= -21.05004607 b= 0 c= 0 d= 2002.63 e= 0 f= 0 Hf(cr) type= formula= Hf mole vol.= 0.0000 cc mole wt.= 178.4900 g 2 species in reaction 4.000 e- 1.000 Hf++++ * log10 K(298 K) = 97.2000 a= 97.20001068 b= 0 c= 0 d= 32850.2 e= 0 f= 0 HfO2(am) type= formula= HfO2 mole vol.= 0.0000 cc mole wt.= 210.4880 g 3 species in reaction -4.000 H+ 1.000 Hf++++ 2.000 H2O * log10 K(298 K) = 0.8999 a= 0.8999476941 b= 0 c= 0 d= 5164.33 e= 0 f= 0 HfO2(cr) type= formula= HfO2 mole vol.= 0.0000 cc mole wt.= 210.4880 g 3 species in reaction -4.000 H+ 1.000 Hf++++ 2.000 H2O * log10 K(298 K) = -5.6200 a= -5.619962301 b= 0 c= 0 d= 4332.25 e= 0 f= 0 Hillebrandite type= formula= Ca2SiO3(OH)2:0.17H2O mole vol.= 72.5800 cc mole wt.= 193.3148 g 4 species in reaction 2.000 Ca++ -4.000 H+ 1.000 H4(SiO4) 1.170 H2O * log10 K(298 K) = 36.9500 a= 36.94999291 b= 0 c= 0 d= 11446.2 e= 0 f= 0 Ho(OH)3(am) type= formula= Ho(OH)3 mole vol.= 0.0000 cc mole wt.= 215.9510 g 3 species in reaction -3.000 H+ 1.000 Ho+++ 3.000 H2O * log10 K(298 K) = 17.4800 a= 17.48 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(OH)3(s) type= formula= Ho(OH)3 mole vol.= 0.0000 cc mole wt.= 215.9510 g 3 species in reaction -3.000 H+ 1.000 Ho+++ 3.000 H2O * log10 K(298 K) = 15.4300 a= 15.43 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(PO4):xH2O(s) type= formula= Ho(PO4) mole vol.= 0.0000 cc mole wt.= 259.9001 g 3 species in reaction -2.000 H+ 1.000 Ho+++ 1.000 H2(PO4)- * log10 K(298 K) = -4.6400 a= -4.64 b= 0 c= 0 d= 0 e= 0 f= 0 Ho(cr) type= formula= Ho mole vol.= 0.0000 cc mole wt.= 164.9303 g 2 species in reaction 1.000 Ho+++ 3.000 e- * log10 K(298 K) = 118.3099 a= 118.3099272 b= 0 c= 0 d= 36931.3 e= 0 f= 0 Ho2(CO3)3(cr) type= formula= Ho2(CO3)3 mole vol.= 0.0000 cc mole wt.= 509.8846 g 2 species in reaction 2.000 Ho+++ 3.000 CO3-- * log10 K(298 K) = -33.8000 a= -33.8 b= 0 c= 0 d= 0 e= 0 f= 0 Ho2O3(s) type= formula= Ho2O3 mole vol.= 0.0000 cc mole wt.= 377.8576 g 3 species in reaction -6.000 H+ 2.000 Ho+++ 3.000 H2O * log10 K(298 K) = 47.4101 a= 47.4100674 b= 0 c= 0 d= 20408 e= 0 f= 0 HoCl3:6H2O(s) type= formula= HoCl3:6H2O mole vol.= 0.0000 cc mole wt.= 379.3772 g 3 species in reaction 1.000 Ho+++ 3.000 Cl- 6.000 H2O * log10 K(298 K) = 5.3900 a= 5.389989059 b= 0 c= 0 d= 2290.23 e= 0 f= 0 HoF3:0.5H2O(s) type= formula= HoF3:0.5H2O mole vol.= 0.0000 cc mole wt.= 230.9329 g 3 species in reaction 1.000 Ho+++ 3.000 F- .500 H2O * log10 K(298 K) = -16.4000 a= -16.40001991 b= 0 c= 0 d= 7783.17 e= 0 f= 0 HoPO4:H2O(cr) type= formula= HoPO4:H2O mole vol.= 0.0000 cc mole wt.= 277.9149 g 4 species in reaction -2.000 H+ 1.000 Ho+++ 1.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -5.5600 a= -5.56 b= 0 c= 0 d= 0 e= 0 f= 0 Hydrocerussite type= formula= Pb3(CO3)2(OH)2 mole vol.= 0.0000 cc mole wt.= 775.6298 g 4 species in reaction 3.000 Pb++ -2.000 H+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -17.9100 a= -17.91000872 b= 0 c= 0 d= 269.525 e= 0 f= 0 Hydrophilite type= formula= CaCl2 mole vol.= 0.0000 cc mole wt.= 110.9834 g 2 species in reaction 1.000 Ca++ 2.000 Cl- * log10 K(298 K) = 11.7700 a= 11.76999072 b= 0 c= 0 d= 4249.72 e= 0 f= 0 Hydrotalcite type= formula= Mg4Al2(OH)14:3H2O mole vol.= 227.3600 cc mole wt.= 443.3240 g 4 species in reaction 4.000 Mg++ 2.000 Al+++ -14.000 H+ 17.000 H2O * log10 K(298 K) = 73.7400 a= 73.74003012 b= 0 c= 0 d= 30515.9 e= 0 f= 0 Hydrotalcite-CO3 type= formula= Mg4Al2(OH)12CO3:2H2O mole vol.= 231.4600 cc mole wt.= 451.3034 g 5 species in reaction 4.000 Mg++ 2.000 Al+++ -12.000 H+ 1.000 CO3-- 14.000 H2O * log10 K(298 K) = 50.8601 a= 50.86010132 b= 0 c= 0 d= 28350.1 e= 0 f= 0 Hydroxyapatite type= formula= Ca5(OH)(PO4)3 mole vol.= 0.0000 cc mole wt.= 502.3063 g 4 species in reaction 5.000 Ca++ -7.000 H+ 3.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = 14.3500 a= 14.35002876 b= 0 c= 0 d= 9323.01 e= 0 f= 0 I2(cr) type= formula= I2 mole vol.= 0.0000 cc mole wt.= 253.8090 g 2 species in reaction -2.000 e- 2.000 I- * log10 K(298 K) = 18.1200 a= 18.11998804 b= 0 c= 0 d= 5931.64 e= 0 f= 0 Illite-Al type= formula= K0.85Al2.85Si3.15O10(OH)2 mole vol.= 138.9800 cc mole wt.= 392.6040 g 5 species in reaction .850 K+ 2.850 Al+++ -9.400 H+ 3.150 H4(SiO4) -.600 H2O * log10 K(298 K) = 13.0201 a= 13.02014307 b= 0 c= 0 d= 13913.6 e= 0 f= 0 Illite-FeII type= formula= K0.85Fe0.25Al2.35Si3.4O10(OH)2 mole vol.= 140.6700 cc mole wt.= 400.0963 g 6 species in reaction .850 K+ .250 Fe++ 2.350 Al+++ -8.400 H+ 3.400 H4(SiO4) -1.600 H2O * log10 K(298 K) = 9.4499 a= 9.449930253 b= 0 c= 0 d= 11308.6 e= 0 f= 0 Illite-Mg type= formula= K0.85Mg0.25Al2.35Si3.4O10(OH)2 mole vol.= 140.0600 cc mole wt.= 392.2108 g 6 species in reaction .250 Mg++ .850 K+ 2.350 Al+++ -8.400 H+ 3.400 H4(SiO4) -1.600 H2O * log10 K(298 K) = 11.0102 a= 11.01015011 b= 0 c= 0 d= 11786.6 e= 0 f= 0 Illite-Smec_ISCz-1(2.996H2O) type= formula= (Na0.134K0.53)(Si3.565Al0.435)(Al1.717Fe0.05Fe0.017Mg0.218)O10(OH)2:2.996H2O mole vol.= 192.4200 cc mole wt.= 439.0081 g 9 species in reaction .218 Mg++ .530 K+ .134 Na+ .050 Fe+++ .017 Fe++ 2.152 Al+++ -7.740 H+ 3.565 H4(SiO4) .736 H2O * log10 K(298 K) = 13.6099 a= 13.60992889 b= 0 c= 0 d= 11761.4 e= 0 f= 0 Illite/smectiteISCz-1 type= formula= (Ca0.092K0.439)(Si3.559Al0.441)(Al1.728Fe0.011Fe0.034Mg0.255)O10(OH)2 mole vol.= 137.1300 cc mole wt.= 382.0452 g 9 species in reaction .092 Ca++ .255 Mg++ .439 K+ .034 Fe+++ .011 Fe++ 2.169 Al+++ -7.764 H+ 3.559 H4(SiO4) -2.236 H2O * log10 K(298 K) = 10.8899 a= 10.88991893 b= 0 c= 0 d= 11702.9 e= 0 f= 0 Illite_Imt-2 type= formula= (Na0.044K0.762)(Si3.387Al0.613)(Al1.427Fe0.292Fe0.084Mg0.241)O10(OH)2 mole vol.= 139.1800 cc mole wt.= 401.8321 g 9 species in reaction .241 Mg++ .762 K+ .044 Na+ .292 Fe+++ .084 Fe++ 2.040 Al+++ -8.452 H+ 3.387 H4(SiO4) -1.548 H2O * log10 K(298 K) = 11.5200 a= 11.51995133 b= 0 c= 0 d= 12055.8 e= 0 f= 0 Jaffeite type= formula= Ca6(Si2O7)(OH)6 mole vol.= 174.3800 cc mole wt.= 510.6734 g 4 species in reaction 6.000 Ca++ -12.000 H+ 2.000 H4(SiO4) 5.000 H2O * log10 K(298 K) = 114.0601 a= 114.0601344 b= 0 c= 0 d= 33260.7 e= 0 f= 0 Jennite type= formula= Ca9Si6O16(OH)10:6H2O mole vol.= 456.4000 cc mole wt.= 1063.3568 g 4 species in reaction 9.000 Ca++ -18.000 H+ 6.000 H4(SiO4) 8.000 H2O * log10 K(298 K) = 147.3300 a= 147.3299695 b= 0 c= 0 d= 39267.3 e= 0 f= 0 K(NO3)(s) type= formula= K(NO3) mole vol.= 0.0000 cc mole wt.= 101.1020 g 2 species in reaction 1.000 K+ 1.000 NO3- * log10 K(298 K) = -0.1000 a= -0.1 b= 0 c= 0 d= 0 e= 0 f= 0 K(OH)(s) type= formula= K(OH) mole vol.= 0.0000 cc mole wt.= 56.1052 g 3 species in reaction 1.000 K+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 24.6000 a= 24.6 b= 0 c= 0 d= 0 e= 0 f= 0 K(TcO4)(s) type= formula= K(TcO4) mole vol.= 0.0000 cc mole wt.= 201.0943 g 2 species in reaction 1.000 K+ 1.000 TcO4- * log10 K(298 K) = -2.2800 a= -2.279996998 b= 0 c= 0 d= -2797.63 e= 0 f= 0 K(cr) type= formula= K mole vol.= 0.0000 cc mole wt.= 39.0983 g 2 species in reaction 1.000 K+ 1.000 e- * log10 K(298 K) = 49.4901 a= 49.49009725 b= 0 c= 0 d= 13170.2 e= 0 f= 0 K-carbonate type= formula= K2CO3:1.5H2O mole vol.= 0.0000 cc mole wt.= 165.2268 g 3 species in reaction 2.000 K+ 1.000 CO3-- 1.500 H2O * log10 K(298 K) = 3.0300 a= 3.029998459 b= 0 c= 0 d= 62.0535 e= 0 f= 0 K-trona type= formula= K2NaH(CO3)2:2H2O mole vol.= 0.0000 cc mole wt.= 258.2399 g 5 species in reaction 2.000 K+ 1.000 Na+ 1.000 H+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -9.1000 a= -9.1 b= 0 c= 0 d= 0 e= 0 f= 0 K2CO3(cr) type= formula= K2CO3 mole vol.= 0.0000 cc mole wt.= 138.2046 g 2 species in reaction 2.000 K+ 1.000 CO3-- * log10 K(298 K) = 5.4100 a= 5.409990977 b= 0 c= 0 d= 1660.92 e= 0 f= 0 K2O(s) type= formula= K2O mole vol.= 0.0000 cc mole wt.= 94.1956 g 3 species in reaction 2.000 K+ -2.000 H+ 1.000 H2O * log10 K(298 K) = 84.1100 a= 84.1100089 b= 0 c= 0 d= 22300.6 e= 0 f= 0 K4NpO2(CO3)3(s) type= formula= K4NpO2(CO3)3 mole vol.= 0.0000 cc mole wt.= 605.4632 g 3 species in reaction 4.000 K+ 1.000 NpO2++ 3.000 CO3-- * log10 K(298 K) = -26.4000 a= -26.4 b= 0 c= 0 d= 0 e= 0 f= 0 KAl(SO4)2(s) type= formula= KAl(SO4)2 mole vol.= 0.0000 cc mole wt.= 258.2038 g 3 species in reaction 1.000 K+ 1.000 Al+++ 2.000 SO4-- * log10 K(298 K) = 3.7400 a= 3.74 b= 0 c= 0 d= 0 e= 0 f= 0 KAl(SO4)2:12H2O(s) type= formula= KAl(SO4)2:12H2O mole vol.= 0.0000 cc mole wt.= 474.3814 g 4 species in reaction 1.000 K+ 1.000 Al+++ 2.000 SO4-- 12.000 H2O * log10 K(298 K) = -6.6800 a= -6.68 b= 0 c= 0 d= 0 e= 0 f= 0 KBr(s) type= formula= KBr mole vol.= 0.0000 cc mole wt.= 119.0023 g 2 species in reaction 1.000 K+ 1.000 Br- * log10 K(298 K) = 1.1300 a= 1.13 b= 0 c= 0 d= 0 e= 0 f= 0 KFe(CrO4)2:2H2O(s) type= formula= KFe(CrO4)2:2H2O mole vol.= 0.0000 cc mole wt.= 362.9591 g 4 species in reaction 1.000 K+ 1.000 Fe+++ 2.000 CrO4-- 2.000 H2O * log10 K(298 K) = -19.3900 a= -19.38998618 b= 0 c= 0 d= -1438.51 e= 0 f= 0 KFe3(CrO4)2(OH)6(cr) type= formula= KFe3(CrO4)2(OH)6 mole vol.= 0.0000 cc mole wt.= 540.6649 g 5 species in reaction 1.000 K+ 3.000 Fe+++ -6.000 H+ 2.000 CrO4-- 6.000 H2O * log10 K(298 K) = -18.4000 a= -18.4 b= 0 c= 0 d= 0 e= 0 f= 0 KH2PO4(cr) type= formula= KH2PO4 mole vol.= 0.0000 cc mole wt.= 136.0839 g 2 species in reaction 1.000 K+ 1.000 H2(PO4)- * log10 K(298 K) = -0.3700 a= -0.3700044793 b= 0 c= 0 d= -1028.27 e= 0 f= 0 KI(s) type= formula= KI mole vol.= 0.0000 cc mole wt.= 166.0028 g 2 species in reaction 1.000 K+ 1.000 I- * log10 K(298 K) = 1.7400 a= 1.74 b= 0 c= 0 d= 0 e= 0 f= 0 Kainite type= formula= KMgCl(SO4):3H2O mole vol.= 0.0000 cc mole wt.= 248.9624 g 5 species in reaction 1.000 Mg++ 1.000 K+ 1.000 SO4-- 1.000 Cl- 3.000 H2O * log10 K(298 K) = -0.1900 a= -0.1899994332 b= 0 c= 0 d= 676.425 e= 0 f= 0 Kalicinite type= formula= KHCO3 mole vol.= 0.0000 cc mole wt.= 100.1142 g 3 species in reaction 1.000 K+ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -10.0600 a= -10.05998824 b= 0 c= 0 d= -1825.56 e= 0 f= 0 Kaolinite type= formula= Al2(Si2O5)(OH)4 mole vol.= 99.3400 cc mole wt.= 258.1566 g 4 species in reaction 2.000 Al+++ -6.000 H+ 2.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 6.5000 a= 6.499988613 b= 0 c= 0 d= 8864.98 e= 0 f= 0 Katoite type= formula= Ca3Al2(SiO4)(OH)8 mole vol.= 141.5100 cc mole wt.= 402.3337 g 5 species in reaction 3.000 Ca++ 2.000 Al+++ -12.000 H+ 1.000 H4(SiO4) 8.000 H2O * log10 K(298 K) = 71.1602 a= 71.16018811 b= 0 c= 0 d= 28507.4 e= 0 f= 0 Lanarkite type= formula= PbSO4:PbO mole vol.= 0.0000 cc mole wt.= 526.4610 g 4 species in reaction 2.000 Pb++ -2.000 H+ 1.000 SO4-- 1.000 H2O * log10 K(298 K) = 2.6300 a= 2.6299965 b= 0 c= 0 d= 2049.33 e= 0 f= 0 Lansfordite type= formula= Mg(CO3):5H2O mole vol.= 0.0000 cc mole wt.= 174.3870 g 3 species in reaction 1.000 Mg++ 1.000 CO3-- 5.000 H2O * log10 K(298 K) = -5.0400 a= -5.039995551 b= 0 c= 0 d= -150.955 e= 0 f= 0 Laumontite type= formula= CaAl2Si4O12:4H2O mole vol.= 207.5300 cc mole wt.= 470.4302 g 4 species in reaction 1.000 Ca++ 2.000 Al+++ -8.000 H+ 4.000 H4(SiO4) * log10 K(298 K) = 11.6698 a= 11.66983654 b= 0 c= 0 d= 11155.8 e= 0 f= 0 Laurionite type= formula= PbClOH mole vol.= 0.0000 cc mole wt.= 259.6596 g 4 species in reaction 1.000 Pb++ -1.000 H+ 1.000 Cl- 1.000 H2O * log10 K(298 K) = 0.6200 a= 0.62 b= 0 c= 0 d= 0 e= 0 f= 0 Lawrencite type= formula= FeCl2 mole vol.= 0.0000 cc mole wt.= 126.7524 g 2 species in reaction 1.000 Fe++ 2.000 Cl- * log10 K(298 K) = 8.8900 a= 8.890002507 b= 0 c= 0 d= 4307.18 e= 0 f= 0 Leonhardtite type= formula= MgSO4:4H2O mole vol.= 0.0000 cc mole wt.= 192.4262 g 3 species in reaction 1.000 Mg++ 1.000 SO4-- 4.000 H2O * log10 K(298 K) = -0.8900 a= -0.8900091917 b= 0 c= 0 d= 1255.17 e= 0 f= 0 Leonite type= formula= K2Mg(SO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 366.6848 g 4 species in reaction 1.000 Mg++ 2.000 K+ 2.000 SO4-- 4.000 H2O * log10 K(298 K) = -3.9800 a= -3.97999858 b= 0 c= 0 d= -798.651 e= 0 f= 0 Lepidocrocite type= formula= FeOOH mole vol.= 0.0000 cc mole wt.= 88.8529 g 3 species in reaction 1.000 Fe+++ -3.000 H+ 2.000 H2O * log10 K(298 K) = 0.7500 a= 0.7499822908 b= 0 c= 0 d= 3354.54 e= 0 f= 0 Li(cr) type= formula= Li mole vol.= 0.0000 cc mole wt.= 6.9410 g 2 species in reaction 1.000 e- 1.000 Li+ * log10 K(298 K) = 51.3201 a= 51.32006605 b= 0 c= 0 d= 14545.5 e= 0 f= 0 Linnaeite type= formula= Co3S4 mole vol.= 0.0000 cc mole wt.= 305.0636 g 4 species in reaction 3.000 Co++ -4.000 H+ -2.000 e- 4.000 HS- * log10 K(298 K) = -42.7600 a= -42.7600347 b= 0 c= 0 d= -7129.88 e= 0 f= 0 Litharge type= formula= PbO mole vol.= 0.0000 cc mole wt.= 223.1990 g 3 species in reaction 1.000 Pb++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 12.6300 a= 12.62999413 b= 0 c= 0 d= 3421.35 e= 0 f= 0 Lizardite type= formula= Mg3Si2O5(OH)4 mole vol.= 107.5000 cc mole wt.= 277.1086 g 4 species in reaction 3.000 Mg++ -6.000 H+ 2.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 33.0800 a= 33.08004962 b= 0 c= 0 d= 12913.1 e= 0 f= 0 Mackinawite type= formula= FeS mole vol.= 0.0000 cc mole wt.= 87.9130 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -3.6000 a= -3.6 b= 0 c= 0 d= 0 e= 0 f= 0 Maghemite(disord) type= formula= Fe2O3 mole vol.= 0.0000 cc mole wt.= 159.6910 g 3 species in reaction 2.000 Fe+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 3.3100 a= 3.31004595 b= 0 c= 0 d= 7752.51 e= 0 f= 0 Maghemite(ord) type= formula= Fe2O3 mole vol.= 0.0000 cc mole wt.= 159.6910 g 3 species in reaction 2.000 Fe+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 3.5200 a= 3.520029063 b= 0 c= 0 d= 7877.4 e= 0 f= 0 Magnesite(nat) type= formula= MgCO3 mole vol.= 0.0000 cc mole wt.= 84.3130 g 2 species in reaction 1.000 Mg++ 1.000 CO3-- * log10 K(298 K) = -8.9100 a= -8.909991648 b= 0 c= 0 d= 1268.75 e= 0 f= 0 Magnesite(syn) type= formula= Mg(CO3) mole vol.= 0.0000 cc mole wt.= 84.3130 g 2 species in reaction 1.000 Mg++ 1.000 CO3-- * log10 K(298 K) = -8.1000 a= -8.099978685 b= 0 c= 0 d= 1511.12 e= 0 f= 0 Magnetite type= formula= Fe3O4 mole vol.= 0.0000 cc mole wt.= 231.5370 g 4 species in reaction 2.000 Fe+++ 1.000 Fe++ -8.000 H+ 4.000 H2O * log10 K(298 K) = 10.4101 a= 10.41010356 b= 0 c= 0 d= 11278.3 e= 0 f= 0 Manganite type= formula= MnOOH mole vol.= 0.0000 cc mole wt.= 87.9439 g 4 species in reaction 1.000 Mn++ -3.000 H+ -1.000 e- 2.000 H2O * log10 K(298 K) = 25.2700 a= 25.27 b= 0 c= 0 d= 0 e= 0 f= 0 Margarite type= formula= CaAl4Si2O10(OH)2 mole vol.= 129.6300 cc mole wt.= 398.1788 g 5 species in reaction 1.000 Ca++ 4.000 Al+++ -14.000 H+ 2.000 H4(SiO4) 4.000 H2O * log10 K(298 K) = 36.9901 a= 36.99012234 b= 0 c= 0 d= 27073.1 e= 0 f= 0 Massicot type= formula= PbO mole vol.= 0.0000 cc mole wt.= 223.1990 g 3 species in reaction 1.000 Pb++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 12.7400 a= 12.74000273 b= 0 c= 0 d= 3491.71 e= 0 f= 0 Melanterite type= formula= FeSO4:7H2O mole vol.= 0.0000 cc mole wt.= 278.0126 g 3 species in reaction 1.000 Fe++ 1.000 SO4-- 7.000 H2O * log10 K(298 K) = -2.2100 a= -2.209990255 b= 0 c= 0 d= -1073.03 e= 0 f= 0 Mercallite type= formula= KHSO4 mole vol.= 0.0000 cc mole wt.= 136.1682 g 3 species in reaction 1.000 K+ 1.000 H+ 1.000 SO4-- * log10 K(298 K) = -1.4000 a= -1.399996592 b= 0 c= 0 d= 30.8178 e= 0 f= 0 Merlinoite_K type= formula= K1.04Al1.04Si1.96O6:1.69H2O mole vol.= 112.9100 cc mole wt.= 250.2096 g 5 species in reaction 1.040 K+ 1.040 Al+++ -4.160 H+ 1.960 H4(SiO4) -.150 H2O * log10 K(298 K) = 9.4700 a= 9.469984255 b= 0 c= 0 d= 5517.27 e= 0 f= 0 Merlinoite_Na type= formula= Na1.04Al1.04Si1.96O6:2.27H2O mole vol.= 114.0400 cc mole wt.= 243.9053 g 5 species in reaction 1.040 Na+ 1.040 Al+++ -4.160 H+ 1.960 H4(SiO4) .430 H2O * log10 K(298 K) = 10.2900 a= 10.29001558 b= 0 c= 0 d= 6022.9 e= 0 f= 0 Mg(HPO4):3H2O(s) type= formula= Mg(HPO4):3H2O mole vol.= 0.0000 cc mole wt.= 174.3271 g 4 species in reaction 1.000 Mg++ -1.000 H+ 1.000 H2(PO4)- 3.000 H2O * log10 K(298 K) = 1.4100 a= 1.41 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(NO3)2(s) type= formula= Mg(NO3)2 mole vol.= 0.0000 cc mole wt.= 148.3124 g 2 species in reaction 1.000 Mg++ 2.000 NO3- * log10 K(298 K) = 15.5000 a= 15.5 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(NO3)2:6H2O(s) type= formula= Mg(NO3)2:6H2O mole vol.= 0.0000 cc mole wt.= 256.4012 g 3 species in reaction 1.000 Mg++ 2.000 NO3- 6.000 H2O * log10 K(298 K) = 2.5800 a= 2.58 b= 0 c= 0 d= 0 e= 0 f= 0 Mg(SO4)(s) type= formula= Mg(SO4) mole vol.= 0.0000 cc mole wt.= 120.3670 g 2 species in reaction 1.000 Mg++ 1.000 SO4-- * log10 K(298 K) = 9.1000 a= 9.099954234 b= 0 c= 0 d= 5983.35 e= 0 f= 0 Mg(SO4):H2O(s) type= formula= Mg(SO4):H2O mole vol.= 0.0000 cc mole wt.= 138.3818 g 3 species in reaction 1.000 Mg++ 1.000 SO4-- 1.000 H2O * log10 K(298 K) = -0.1200 a= -0.1199907211 b= 0 c= 0 d= 2688.15 e= 0 f= 0 Mg(SeO3):6H2O(s) type= formula= Mg(SeO3):6H2O mole vol.= 0.0000 cc mole wt.= 259.3508 g 3 species in reaction 1.000 Mg++ 1.000 SeO3-- 6.000 H2O * log10 K(298 K) = -5.8200 a= -5.820001952 b= 0 c= 0 d= -943.86 e= 0 f= 0 Mg(SeO4):6H2O(s) type= formula= Mg(SeO4):6H2O mole vol.= 0.0000 cc mole wt.= 275.3498 g 3 species in reaction 1.000 Mg++ 1.000 SeO4-- 6.000 H2O * log10 K(298 K) = -1.1300 a= -1.129995496 b= 0 c= 0 d= 213.113 e= 0 f= 0 Mg(cr) type= formula= Mg mole vol.= 0.0000 cc mole wt.= 24.3050 g 2 species in reaction 1.000 Mg++ 2.000 e- * log10 K(298 K) = 79.7801 a= 79.78008829 b= 0 c= 0 d= 24393.1 e= 0 f= 0 Mg-oxychlorur type= formula= Mg2Cl(OH)3:4H2O mole vol.= 0.0000 cc mole wt.= 207.1426 g 4 species in reaction 2.000 Mg++ -3.000 H+ 1.000 Cl- 7.000 H2O * log10 K(298 K) = 26.0300 a= 26.03000633 b= 0 c= 0 d= 8080.01 e= 0 f= 0 Mg3(PO4)2(cr) type= formula= Mg3(PO4)2 mole vol.= 0.0000 cc mole wt.= 262.8546 g 3 species in reaction 3.000 Mg++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 15.8199 a= 15.81989499 b= 0 c= 0 d= 11182.8 e= 0 f= 0 Mg3(PO4)2:22H2O(s) type= formula= Mg3(PO4)2:22H2O mole vol.= 0.0000 cc mole wt.= 659.1802 g 4 species in reaction 3.000 Mg++ -4.000 H+ 2.000 H2(PO4)- 22.000 H2O * log10 K(298 K) = 16.0000 a= 16 b= 0 c= 0 d= 0 e= 0 f= 0 Mg3(PO4)2:8H2O(s) type= formula= Mg3(PO4)2:8H2O mole vol.= 0.0000 cc mole wt.= 406.9730 g 4 species in reaction 3.000 Mg++ -4.000 H+ 2.000 H2(PO4)- 8.000 H2O * log10 K(298 K) = 13.9000 a= 13.9 b= 0 c= 0 d= 0 e= 0 f= 0 Mg5(CO3)4(OH)2:4H2O(s) type= formula= Mg5(CO3)4(OH)2:4H2O mole vol.= 0.0000 cc mole wt.= 467.6300 g 4 species in reaction 5.000 Mg++ -2.000 H+ 4.000 CO3-- 6.000 H2O * log10 K(298 K) = -10.3099 a= -10.30992455 b= 0 c= 0 d= 12269.7 e= 0 f= 0 MgBr2(s) type= formula= MgBr2 mole vol.= 0.0000 cc mole wt.= 184.1130 g 2 species in reaction 1.000 Mg++ 2.000 Br- * log10 K(298 K) = 27.8000 a= 27.8 b= 0 c= 0 d= 0 e= 0 f= 0 MgBr2:6H2O(s) type= formula= MgBr2:6H2O mole vol.= 0.0000 cc mole wt.= 292.2018 g 3 species in reaction 1.000 Mg++ 2.000 Br- 6.000 H2O * log10 K(298 K) = 5.2200 a= 5.22 b= 0 c= 0 d= 0 e= 0 f= 0 MgCl2(s) type= formula= MgCl2 mole vol.= 0.0000 cc mole wt.= 95.2104 g 2 species in reaction 1.000 Mg++ 2.000 Cl- * log10 K(298 K) = 22.0300 a= 22.02998932 b= 0 c= 0 d= 8333.34 e= 0 f= 0 MgCl2:2H2O(s) type= formula= MgCl2:2H2O mole vol.= 0.0000 cc mole wt.= 131.2400 g 3 species in reaction 1.000 Mg++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = 12.9000 a= 12.9 b= 0 c= 0 d= 0 e= 0 f= 0 MgCl2:4H2O(s) type= formula= MgCl2:4H2O mole vol.= 0.0000 cc mole wt.= 167.2696 g 3 species in reaction 1.000 Mg++ 2.000 Cl- 4.000 H2O * log10 K(298 K) = 7.4400 a= 7.44 b= 0 c= 0 d= 0 e= 0 f= 0 MgCl2:H2O(s) type= formula= MgCl2:H2O mole vol.= 0.0000 cc mole wt.= 113.2252 g 3 species in reaction 1.000 Mg++ 2.000 Cl- 1.000 H2O * log10 K(298 K) = 16.2200 a= 16.22 b= 0 c= 0 d= 0 e= 0 f= 0 MgCr2O4(s) type= formula= MgCr2O4 mole vol.= 0.0000 cc mole wt.= 192.2932 g 4 species in reaction 1.000 Mg++ -8.000 H+ 2.000 Cr+++ 4.000 H2O * log10 K(298 K) = 22.1699 a= 22.16991236 b= 0 c= 0 d= 16073.3 e= 0 f= 0 MgF2(cr) type= formula= MgF2 mole vol.= 0.0000 cc mole wt.= 62.3018 g 2 species in reaction 1.000 Mg++ 2.000 F- * log10 K(298 K) = -9.2200 a= -9.220005249 b= 0 c= 0 d= 705.153 e= 0 f= 0 MgI2(s) type= formula= MgI2 mole vol.= 0.0000 cc mole wt.= 278.1140 g 2 species in reaction 1.000 Mg++ 2.000 I- * log10 K(298 K) = 35.0000 a= 35 b= 0 c= 0 d= 0 e= 0 f= 0 MgMoO4(s) type= formula= MgMoO4 mole vol.= 0.0000 cc mole wt.= 184.2410 g 2 species in reaction 1.000 Mg++ 1.000 MoO4-- * log10 K(298 K) = -0.6400 a= -0.6400411873 b= 0 c= 0 d= 3288.94 e= 0 f= 0 Microcline type= formula= KAlSi3O8 mole vol.= 108.7400 cc mole wt.= 278.3283 g 5 species in reaction 1.000 K+ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 0.0500 a= 0.04999880932 b= 0 c= 0 d= 2949.21 e= 0 f= 0 Millerite type= formula= NiS mole vol.= 0.0000 cc mole wt.= 90.7560 g 3 species in reaction 1.000 Ni++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -10.1300 a= -10.1300178 b= 0 c= 0 d= -1185.08 e= 0 f= 0 Minium type= formula= Pb3O4 mole vol.= 0.0000 cc mole wt.= 685.5960 g 4 species in reaction 3.000 Pb++ -8.000 H+ -2.000 e- 4.000 H2O * log10 K(298 K) = 73.5301 a= 73.53006215 b= 0 c= 0 d= 22036 e= 0 f= 0 Minnesotaite type= formula= Fe3Si4O10(OH)2 mole vol.= 148.5000 cc mole wt.= 473.8868 g 4 species in reaction 3.000 Fe++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 14.9200 a= 14.91999559 b= 0 c= 0 d= 7754.91 e= 0 f= 0 Mirabilite type= formula= Na2SO4:10H2O mole vol.= 0.0000 cc mole wt.= 322.1896 g 3 species in reaction 2.000 Na+ 1.000 SO4-- 10.000 H2O * log10 K(298 K) = -1.2300 a= -1.229989921 b= 0 c= 0 d= -4151.05 e= 0 f= 0 Mn(H2SiO4)(s) type= formula= Mn(H2SiO4) mole vol.= 0.0000 cc mole wt.= 149.0353 g 3 species in reaction 1.000 Mn++ -2.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 12.4400 a= 12.44 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(HPO4)(s) type= formula= Mn(HPO4) mole vol.= 0.0000 cc mole wt.= 150.9157 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -5.7400 a= -5.74 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(SO4)(s) type= formula= Mn(SO4) mole vol.= 0.0000 cc mole wt.= 151.0000 g 2 species in reaction 1.000 Mn++ 1.000 SO4-- * log10 K(298 K) = -2.6800 a= -2.68 b= 0 c= 0 d= 0 e= 0 f= 0 Mn(SeO3):2H2O(cr) type= formula= Mn(SeO3):2H2O mole vol.= 0.0000 cc mole wt.= 217.9246 g 3 species in reaction 1.000 Mn++ 1.000 SeO3-- 2.000 H2O * log10 K(298 K) = -7.6000 a= -7.599963072 b= 0 c= 0 d= 988.259 e= 0 f= 0 Mn(cr) type= formula= Mn mole vol.= 0.0000 cc mole wt.= 54.9380 g 2 species in reaction 1.000 Mn++ 2.000 e- * log10 K(298 K) = 39.9901 a= 39.99010234 b= 0 c= 0 d= 11533.2 e= 0 f= 0 Mn2(Pyrophos)(s) type= formula= Mn2(P2O7) mole vol.= 0.0000 cc mole wt.= 283.8166 g 2 species in reaction 2.000 Mn++ 1.000 Pyrophos---- * log10 K(298 K) = -19.5000 a= -19.5 b= 0 c= 0 d= 0 e= 0 f= 0 Mn3(PO4)2(s) type= formula= Mn3(PO4)2 mole vol.= 0.0000 cc mole wt.= 354.7536 g 3 species in reaction 3.000 Mn++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 15.3200 a= 15.32 b= 0 c= 0 d= 0 e= 0 f= 0 Mn3(PO4)2:3H2O(s) type= formula= Mn3(PO4)2:3H2O mole vol.= 0.0000 cc mole wt.= 408.7980 g 4 species in reaction 3.000 Mn++ -4.000 H+ 2.000 H2(PO4)- 3.000 H2O * log10 K(298 K) = 2.3200 a= 2.32 b= 0 c= 0 d= 0 e= 0 f= 0 MnCl2:2H2O(s) type= formula= MnCl2:2H2O mole vol.= 0.0000 cc mole wt.= 161.8730 g 3 species in reaction 1.000 Mn++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = 3.9800 a= 3.98 b= 0 c= 0 d= 0 e= 0 f= 0 MnCl2:4H2O(s) type= formula= MnCl2:4H2O mole vol.= 0.0000 cc mole wt.= 197.9026 g 3 species in reaction 1.000 Mn++ 2.000 Cl- 4.000 H2O * log10 K(298 K) = 2.7100 a= 2.71 b= 0 c= 0 d= 0 e= 0 f= 0 MnCl2:H2O(s) type= formula= MnCl2:H2O mole vol.= 0.0000 cc mole wt.= 143.8582 g 3 species in reaction 1.000 Mn++ 2.000 Cl- 1.000 H2O * log10 K(298 K) = 5.5300 a= 5.53 b= 0 c= 0 d= 0 e= 0 f= 0 MnO(s) type= formula= MnO mole vol.= 0.0000 cc mole wt.= 70.9370 g 3 species in reaction 1.000 Mn++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 17.9000 a= 17.9 b= 0 c= 0 d= 0 e= 0 f= 0 MnO2(s) type= formula= MnO2 mole vol.= 0.0000 cc mole wt.= 86.9360 g 4 species in reaction 1.000 Mn++ -4.000 H+ -2.000 e- 2.000 H2O * log10 K(298 K) = 42.0000 a= 42 b= 0 c= 0 d= 0 e= 0 f= 0 MnSe(alfa) type= formula= MnSe mole vol.= 0.0000 cc mole wt.= 133.8980 g 3 species in reaction 1.000 Mn++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = 0.3300 a= 0.3299886534 b= 0 c= 0 d= 1492.78 e= 0 f= 0 MnSe2(cr) type= formula= MnSe2 mole vol.= 0.0000 cc mole wt.= 212.8580 g 4 species in reaction 1.000 Mn++ -2.000 H+ -2.000 e- 2.000 HSe- * log10 K(298 K) = -8.1199 a= -8.119949874 b= 0 c= 0 d= 611.133 e= 0 f= 0 Mo(cr) type= formula= Mo mole vol.= 0.0000 cc mole wt.= 95.9400 g 4 species in reaction 8.000 H+ 6.000 e- 1.000 MoO4-- -4.000 H2O * log10 K(298 K) = -19.5800 a= -19.57998035 b= 0 c= 0 d= -7642.81 e= 0 f= 0 Mo3O8(s) type= formula= Mo3O8 mole vol.= 0.0000 cc mole wt.= 415.8120 g 4 species in reaction 8.000 H+ 2.000 e- 3.000 MoO4-- -4.000 H2O * log10 K(298 K) = -63.5600 a= -63.56 b= 0 c= 0 d= 0 e= 0 f= 0 MoO2(s) type= formula= MoO2 mole vol.= 0.0000 cc mole wt.= 127.9380 g 4 species in reaction 4.000 H+ 2.000 e- 1.000 MoO4-- -2.000 H2O * log10 K(298 K) = -29.8800 a= -29.88001143 b= 0 c= 0 d= -8488.48 e= 0 f= 0 MoO3(s) type= formula= MoO3 mole vol.= 0.0000 cc mole wt.= 143.9370 g 3 species in reaction 2.000 H+ 1.000 MoO4-- -1.000 H2O * log10 K(298 K) = -11.9800 a= -11.97998965 b= 0 c= 0 d= -1775.99 e= 0 f= 0 MoS2(s) type= formula= MoS2 mole vol.= 0.0000 cc mole wt.= 160.0720 g 5 species in reaction 6.000 H+ 2.000 e- 2.000 HS- 1.000 MoO4-- -4.000 H2O * log10 K(298 K) = -69.9100 a= -69.91003975 b= 0 c= 0 d= -20137.2 e= 0 f= 0 MoS3(s) type= formula= MoS3 mole vol.= 0.0000 cc mole wt.= 192.1380 g 4 species in reaction 5.000 H+ 3.000 HS- 1.000 MoO4-- -4.000 H2O * log10 K(298 K) = -68.0699 a= -68.06992922 b= 0 c= 0 d= -18534.9 e= 0 f= 0 Monocarboaluminate type= formula= (CaO)3Al2O3:CaCO3:10.68H2O mole vol.= 261.9600 cc mole wt.= 562.6751 g 5 species in reaction 4.000 Ca++ 2.000 Al+++ -12.000 H+ 1.000 CO3-- 16.680 H2O * log10 K(298 K) = 70.2998 a= 70.29981189 b= 0 c= 0 d= 26948.5 e= 0 f= 0 Monosulfate-Fe type= formula= Ca4Fe2(SO4)(OH)12:6H2O mole vol.= 316.0600 cc mole wt.= 680.2396 g 5 species in reaction 4.000 Ca++ 2.000 Fe+++ -12.000 H+ 1.000 SO4-- 18.000 H2O * log10 K(298 K) = 66.0499 a= 66.049948 b= 0 c= 0 d= 24947 e= 0 f= 0 Monosulfoaluminate type= formula= Ca4Al2(SO4)(OH)12:6H2O mole vol.= 311.2600 cc mole wt.= 622.5086 g 5 species in reaction 4.000 Ca++ 2.000 Al+++ -12.000 H+ 1.000 SO4-- 18.000 H2O * log10 K(298 K) = 73.0700 a= 73.07004224 b= 0 c= 0 d= 28174.8 e= 0 f= 0 Montmorillonite-BCCa type= formula= Ca0.17Mg0.34Al1.66Si4O10(OH)2 mole vol.= 135.5800 cc mole wt.= 366.2120 g 6 species in reaction .170 Ca++ .340 Mg++ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 4.2000 a= 4.200001677 b= 0 c= 0 d= 8148.44 e= 0 f= 0 Montmorillonite-BCK type= formula= K0.34Mg0.34Al1.66Si4O10(OH)2 mole vol.= 134.6900 cc mole wt.= 372.6922 g 6 species in reaction .340 Mg++ .340 K+ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 2.8100 a= 2.810041858 b= 0 c= 0 d= 7114.11 e= 0 f= 0 Montmorillonite-BCMg type= formula= Mg0.17Mg0.34Al1.66Si4O10(OH)2 mole vol.= 131.5800 cc mole wt.= 363.5306 g 5 species in reaction .510 Mg++ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 3.6900 a= 3.690037464 b= 0 c= 0 d= 8219.47 e= 0 f= 0 Montmorillonite-BCNa type= formula= Na0.34Mg0.34Al1.66Si4O10(OH)2 mole vol.= 133.9600 cc mole wt.= 367.2153 g 6 species in reaction .340 Mg++ .340 Na+ 1.660 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 3.3900 a= 3.38999346 b= 0 c= 0 d= 7588.81 e= 0 f= 0 Montmorillonite-HCCa type= formula= Ca0.3Mg0.6Al1.4Si4O10(OH)2 mole vol.= 140.3200 cc mole wt.= 370.7263 g 6 species in reaction .300 Ca++ .600 Mg++ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 6.8900 a= 6.889998675 b= 0 c= 0 d= 8560.87 e= 0 f= 0 Montmorillonite-HCK type= formula= K0.6Mg0.6Al1.4Si4O10(OH)2 mole vol.= 138.7500 cc mole wt.= 382.1619 g 6 species in reaction .600 Mg++ .600 K+ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 4.4300 a= 4.429988865 b= 0 c= 0 d= 6736.04 e= 0 f= 0 Montmorillonite-HCMg type= formula= Mg0.3Mg0.6Al1.4Si4O10(OH)2 mole vol.= 133.2700 cc mole wt.= 365.9944 g 5 species in reaction .900 Mg++ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 5.9800 a= 5.979958175 b= 0 c= 0 d= 8686.23 e= 0 f= 0 Montmorillonite-HCNa type= formula= Na0.6Mg0.6Al1.4Si4O10(OH)2 mole vol.= 137.4700 cc mole wt.= 372.4968 g 6 species in reaction .600 Mg++ .600 Na+ 1.400 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 5.4500 a= 5.450006825 b= 0 c= 0 d= 7573.34 e= 0 f= 0 Mordenite_Ca type= formula= Ca0.515Al1.03Si4.97O12:3.1H2O mole vol.= 209.8000 cc mole wt.= 435.8499 g 5 species in reaction .515 Ca++ 1.030 Al+++ -4.120 H+ 4.970 H4(SiO4) -4.780 H2O * log10 K(298 K) = -2.9200 a= -2.920029767 b= 0 c= 0 d= 3903.52 e= 0 f= 0 Mordenite_Oregon type= formula= Ca0.289Na0.362Al0.94Si5.06O12:3.468H2O mole vol.= 212.4000 cc mole wt.= 441.8434 g 6 species in reaction .289 Ca++ .362 Na+ .940 Al+++ -3.760 H+ 5.060 H4(SiO4) -4.772 H2O * log10 K(298 K) = -4.1800 a= -4.180038672 b= 0 c= 0 d= 2154.48 e= 0 f= 0 Muscovite type= formula= KAl3Si3O10(OH)2 mole vol.= 140.8100 cc mole wt.= 398.3031 g 4 species in reaction 1.000 K+ 3.000 Al+++ -10.000 H+ 3.000 H4(SiO4) * log10 K(298 K) = 13.0199 a= 13.01990823 b= 0 c= 0 d= 14422.8 e= 0 f= 0 Na(NO3)(s) type= formula= Na(NO3) mole vol.= 0.0000 cc mole wt.= 84.9935 g 2 species in reaction 1.000 Na+ 1.000 NO3- * log10 K(298 K) = 1.0900 a= 1.09 b= 0 c= 0 d= 0 e= 0 f= 0 Na(TcO4):4H2O(s) type= formula= Na(TcO4):4H2O mole vol.= 0.0000 cc mole wt.= 257.0450 g 3 species in reaction 1.000 Na+ 1.000 TcO4- 4.000 H2O * log10 K(298 K) = 0.7900 a= 0.79 b= 0 c= 0 d= 0 e= 0 f= 0 Na(cr) type= formula= Na mole vol.= 0.0000 cc mole wt.= 22.9898 g 2 species in reaction 1.000 Na+ 1.000 e- * log10 K(298 K) = 45.8900 a= 45.88995152 b= 0 c= 0 d= 12553.8 e= 0 f= 0 Na2(CO3)(cr) type= formula= Na2(CO3) mole vol.= 0.0000 cc mole wt.= 105.9876 g 2 species in reaction 2.000 Na+ 1.000 CO3-- * log10 K(298 K) = 1.1200 a= 1.120009569 b= 0 c= 0 d= 1395.16 e= 0 f= 0 Na2B4O7(cr) type= formula= Na2B4O7 mole vol.= 0.0000 cc mole wt.= 201.2166 g 4 species in reaction 2.000 Na+ 2.000 H+ 4.000 B(OH)4- -9.000 H2O * log10 K(298 K) = -16.0600 a= -16.05998583 b= 0 c= 0 d= -131.629 e= 0 f= 0 Na2B4O7:10H2O(s) type= formula= Na2B4O7:10H2O mole vol.= 0.0000 cc mole wt.= 381.3646 g 4 species in reaction 2.000 Na+ 2.000 H+ 4.000 B(OH)4- 1.000 H2O * log10 K(298 K) = -24.5800 a= -24.57998606 b= 0 c= 0 d= -7389.53 e= 0 f= 0 Na2CO3:7H2O(s) type= formula= Na2CO3:7H2O mole vol.= 0.0000 cc mole wt.= 232.0912 g 3 species in reaction 2.000 Na+ 1.000 CO3-- 7.000 H2O * log10 K(298 K) = -0.4600 a= -0.45999486 b= 0 c= 0 d= -2229.43 e= 0 f= 0 Na2HPO4(cr) type= formula= Na2HPO4 mole vol.= 0.0000 cc mole wt.= 141.9573 g 3 species in reaction 2.000 Na+ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 9.2400 a= 9.24001352 b= 0 c= 0 d= 1837.58 e= 0 f= 0 Na2O(cr) type= formula= Na2O mole vol.= 0.0000 cc mole wt.= 61.9786 g 3 species in reaction 2.000 Na+ -2.000 H+ 1.000 H2O * log10 K(298 K) = 67.4601 a= 67.46011132 b= 0 c= 0 d= 18371.1 e= 0 f= 0 Na2ZrSi2O7(cr) type= formula= Na2ZrSi2O7 mole vol.= 0.0000 cc mole wt.= 305.3636 g 5 species in reaction 2.000 Na+ -6.000 H+ 2.000 H4(SiO4) 1.000 Zr++++ -1.000 H2O * log10 K(298 K) = 3.7400 a= 3.739959148 b= 0 c= 0 d= 6254.34 e= 0 f= 0 Na2ZrSi3O9:2H2O(cr) type= formula= Na2ZrSi3O9:2H2O mole vol.= 0.0000 cc mole wt.= 401.4767 g 5 species in reaction 2.000 Na+ -6.000 H+ 3.000 H4(SiO4) 1.000 Zr++++ -1.000 H2O * log10 K(298 K) = 15.5800 a= 15.58 b= 0 c= 0 d= 0 e= 0 f= 0 Na2ZrSi4O11(cr) type= formula= Na2ZrSi4O11 mole vol.= 0.0000 cc mole wt.= 425.5306 g 5 species in reaction 2.000 Na+ -6.000 H+ 4.000 H4(SiO4) 1.000 Zr++++ -5.000 H2O * log10 K(298 K) = -13.5600 a= -13.56 b= 0 c= 0 d= 0 e= 0 f= 0 Na2ZrSi6O15:3H2O(cr) type= formula= Na2ZrSi6O15:3H2O mole vol.= 0.0000 cc mole wt.= 599.7420 g 5 species in reaction 2.000 Na+ -6.000 H+ 6.000 H4(SiO4) 1.000 Zr++++ -6.000 H2O * log10 K(298 K) = 16.4600 a= 16.46 b= 0 c= 0 d= 0 e= 0 f= 0 Na2ZrSiO5(cr) type= formula= Na2ZrSiO5 mole vol.= 0.0000 cc mole wt.= 245.2801 g 5 species in reaction 2.000 Na+ -6.000 H+ 1.000 H4(SiO4) 1.000 Zr++++ 1.000 H2O * log10 K(298 K) = 13.1901 a= 13.1900589 b= 0 c= 0 d= 8681.43 e= 0 f= 0 Na3PO4(cr) type= formula= Na3PO4 mole vol.= 0.0000 cc mole wt.= 163.9392 g 3 species in reaction 3.000 Na+ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 23.5200 a= 23.51998274 b= 0 c= 0 d= 5548.14 e= 0 f= 0 Na4Zr2Si3O12(cr) type= formula= Na4Zr2Si3O12 mole vol.= 0.0000 cc mole wt.= 550.6437 g 4 species in reaction 4.000 Na+ -12.000 H+ 3.000 H4(SiO4) 2.000 Zr++++ * log10 K(298 K) = 15.5001 a= 15.50009554 b= 0 c= 0 d= 14465.7 e= 0 f= 0 Na6Th(CO3)5:12H2O(cr) type= formula= Na6Th(CO3)5:12H2O mole vol.= 0.0000 cc mole wt.= 886.1945 g 4 species in reaction 6.000 Na+ 1.000 Th++++ 5.000 CO3-- 12.000 H2O * log10 K(298 K) = -42.2000 a= -42.2 b= 0 c= 0 d= 0 e= 0 f= 0 NaAmO2CO3(s) type= formula= NaAmO2CO3 mole vol.= 0.0000 cc mole wt.= 357.9958 g 3 species in reaction 1.000 Na+ 1.000 AmO2+ 1.000 CO3-- * log10 K(298 K) = -10.9000 a= -10.9 b= 0 c= 0 d= 0 e= 0 f= 0 NaBO2(s) type= formula= NaBO2 mole vol.= 0.0000 cc mole wt.= 65.7988 g 3 species in reaction 1.000 Na+ 1.000 B(OH)4- -2.000 H2O * log10 K(298 K) = 3.6200 a= 3.619999405 b= 0 c= 0 d= 1921.83 e= 0 f= 0 NaCm(CO3)2:5H2O(s) type= formula= NaCm(CO3)2:5H2O mole vol.= 0.0000 cc mole wt.= 480.0798 g 4 species in reaction 1.000 Na+ 2.000 CO3-- 1.000 Cm+++ 5.000 H2O * log10 K(298 K) = -21.0000 a= -21 b= 0 c= 0 d= 0 e= 0 f= 0 NaEu(CO3)2:5H2O(s) type= formula= NaEu(CO3)2:5H2O mole vol.= 0.0000 cc mole wt.= 385.0448 g 4 species in reaction 1.000 Na+ 1.000 Eu+++ 2.000 CO3-- 5.000 H2O * log10 K(298 K) = -20.9000 a= -20.9 b= 0 c= 0 d= 0 e= 0 f= 0 NaF(s) type= formula= NaF mole vol.= 0.0000 cc mole wt.= 41.9882 g 2 species in reaction 1.000 Na+ 1.000 F- * log10 K(298 K) = -0.4800 a= -0.48 b= 0 c= 0 d= 0 e= 0 f= 0 NaH2PO4(cr) type= formula= NaH2PO4 mole vol.= 0.0000 cc mole wt.= 119.9754 g 2 species in reaction 1.000 Na+ 1.000 H2(PO4)- * log10 K(298 K) = 2.3000 a= 2.300000027 b= 0 c= 0 d= 320.714 e= 0 f= 0 NaHo(CO3)2:5H2O(s) type= formula= NaHo(CO3)2:5H2O mole vol.= 0.0000 cc mole wt.= 398.0101 g 4 species in reaction 1.000 Na+ 1.000 Ho+++ 2.000 CO3-- 5.000 H2O * log10 K(298 K) = -20.5000 a= -20.5 b= 0 c= 0 d= 0 e= 0 f= 0 NaNbO3(s) type= formula= NaNbO3 mole vol.= 0.0000 cc mole wt.= 163.8932 g 3 species in reaction 1.000 Na+ 1.000 Nb(OH)6- -3.000 H2O * log10 K(298 K) = -3.6600 a= -3.659996066 b= 0 c= 0 d= -391.595 e= 0 f= 0 NaSm(CO3)2:5H2O(s) type= formula= NaSm(CO3)2:5H2O mole vol.= 0.0000 cc mole wt.= 383.4398 g 4 species in reaction 1.000 Na+ 1.000 Sm+++ 2.000 CO3-- 5.000 H2O * log10 K(298 K) = -20.9900 a= -20.99 b= 0 c= 0 d= 0 e= 0 f= 0 Nahcolite type= formula= Na(HCO3) mole vol.= 0.0000 cc mole wt.= 84.0057 g 3 species in reaction 1.000 Na+ 1.000 H+ 1.000 CO3-- * log10 K(298 K) = -10.7400 a= -10.74000288 b= 0 c= 0 d= -1746.17 e= 0 f= 0 Natrolite type= formula= Na2(Al2Si3)O10:2H2O mole vol.= 169.2000 cc mole wt.= 380.2187 g 4 species in reaction 2.000 Na+ 2.000 Al+++ -8.000 H+ 3.000 H4(SiO4) * log10 K(298 K) = 19.3101 a= 19.31007097 b= 0 c= 0 d= 11620 e= 0 f= 0 Natron type= formula= Na2(CO3):10H2O mole vol.= 0.0000 cc mole wt.= 286.1356 g 3 species in reaction 2.000 Na+ 1.000 CO3-- 10.000 H2O * log10 K(298 K) = -0.8300 a= -0.8300157471 b= 0 c= 0 d= -3388.39 e= 0 f= 0 Nb(cr) type= formula= Nb mole vol.= 0.0000 cc mole wt.= 92.9064 g 4 species in reaction 6.000 H+ 1.000 Nb(OH)6- 5.000 e- -6.000 H2O * log10 K(298 K) = 41.8199 a= 41.81991006 b= 0 c= 0 d= 11004.8 e= 0 f= 0 Nb2O5(s) type= formula= Nb2O5 mole vol.= 0.0000 cc mole wt.= 265.8078 g 3 species in reaction 2.000 H+ 2.000 Nb(OH)6- -7.000 H2O * log10 K(298 K) = -28.3800 a= -28.37997714 b= 0 c= 0 d= -2737.04 e= 0 f= 0 Nesquehonite type= formula= Mg(CO3):3H2O mole vol.= 0.0000 cc mole wt.= 138.3574 g 3 species in reaction 1.000 Mg++ 1.000 CO3-- 3.000 H2O * log10 K(298 K) = -5.1000 a= -5.099988434 b= 0 c= 0 d= 1171.08 e= 0 f= 0 Ni(BO2)2(s) type= formula= Ni(BO2)2 mole vol.= 0.0000 cc mole wt.= 144.3080 g 3 species in reaction 1.000 Ni++ 2.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -8.7000 a= -8.7 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(CO3)(cr) type= formula= Ni(CO3) mole vol.= 0.0000 cc mole wt.= 118.6980 g 2 species in reaction 1.000 Ni++ 1.000 CO3-- * log10 K(298 K) = -10.9900 a= -10.98999829 b= 0 c= 0 d= 883.896 e= 0 f= 0 Ni(CO3):5.5H2O(cr) type= formula= Ni(CO3):5.5H2O mole vol.= 0.0000 cc mole wt.= 217.7794 g 3 species in reaction 1.000 Ni++ 1.000 CO3-- 5.500 H2O * log10 K(298 K) = -7.5200 a= -7.519999054 b= 0 c= 0 d= -558.22 e= 0 f= 0 Ni(IO3)2(beta) type= formula= Ni(IO3)2 mole vol.= 0.0000 cc mole wt.= 408.4930 g 2 species in reaction 1.000 Ni++ 2.000 IO3- * log10 K(298 K) = -4.4300 a= -4.429996763 b= 0 c= 0 d= 381.305 e= 0 f= 0 Ni(IO3)2:2H2O(cr) type= formula= Ni(IO3)2:2H2O mole vol.= 0.0000 cc mole wt.= 444.5226 g 3 species in reaction 1.000 Ni++ 2.000 IO3- 2.000 H2O * log10 K(298 K) = -5.1400 a= -5.139985502 b= 0 c= 0 d= -1128.24 e= 0 f= 0 Ni(OH)2(s) type= formula= Ni(OH)2 mole vol.= 0.0000 cc mole wt.= 92.7038 g 3 species in reaction 1.000 Ni++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 11.0300 a= 11.0300032 b= 0 c= 0 d= 4407.94 e= 0 f= 0 Ni(SO4)(cr) type= formula= Ni(SO4) mole vol.= 0.0000 cc mole wt.= 154.7520 g 2 species in reaction 1.000 Ni++ 1.000 SO4-- * log10 K(298 K) = 4.7500 a= 4.74998972 b= 0 c= 0 d= 4757.01 e= 0 f= 0 Ni(SO4):6H2O(s) type= formula= Ni(SO4):6H2O mole vol.= 0.0000 cc mole wt.= 262.8408 g 3 species in reaction 1.000 Ni++ 1.000 SO4-- 6.000 H2O * log10 K(298 K) = -2.2500 a= -2.249998722 b= 0 c= 0 d= -234.268 e= 0 f= 0 Ni(SO4):7H2O(s) type= formula= Ni(SO4):7H2O mole vol.= 0.0000 cc mole wt.= 280.8556 g 3 species in reaction 1.000 Ni++ 1.000 SO4-- 7.000 H2O * log10 K(298 K) = -2.2700 a= -2.270000649 b= 0 c= 0 d= -635.526 e= 0 f= 0 Ni(SeO3):2H2O(cr) type= formula= Ni(SeO3):2H2O mole vol.= 0.0000 cc mole wt.= 221.6766 g 3 species in reaction 1.000 Ni++ 1.000 SeO3-- 2.000 H2O * log10 K(298 K) = -5.8000 a= -5.800029146 b= 0 c= 0 d= 1279.83 e= 0 f= 0 Ni(SeO4):6H2O(s) type= formula= Ni(SeO4):6H2O mole vol.= 0.0000 cc mole wt.= 309.7348 g 3 species in reaction 1.000 Ni++ 1.000 SeO4-- 6.000 H2O * log10 K(298 K) = -1.3800 a= -1.379997728 b= 0 c= 0 d= 198.017 e= 0 f= 0 Ni(SiO3)(s) type= formula= Ni(SiO3) mole vol.= 0.0000 cc mole wt.= 134.7725 g 4 species in reaction 1.000 Ni++ -2.000 H+ 1.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = -1.7800 a= -1.78 b= 0 c= 0 d= 0 e= 0 f= 0 Ni(cr) type= formula= Ni mole vol.= 0.0000 cc mole wt.= 58.6900 g 2 species in reaction 1.000 Ni++ 2.000 e- * log10 K(298 K) = 8.0200 a= 8.019995605 b= 0 c= 0 d= 2873.47 e= 0 f= 0 Ni0.88Se(cr) type= formula= Ni0.88Se mole vol.= 0.0000 cc mole wt.= 130.6072 g 4 species in reaction .880 Ni++ -1.000 H+ -.240 e- 1.000 HSe- * log10 K(298 K) = -12.7600 a= -12.75998328 b= 0 c= 0 d= -1864.16 e= 0 f= 0 Ni11As8(cr) type= formula= Ni11As8 mole vol.= 0.0000 cc mole wt.= 1244.9628 g 5 species in reaction 11.000 Ni++ 64.000 H+ 62.000 e- 8.000 AsO4--- -32.000 H2O * log10 K(298 K) = -457.9300 a= -457.9299528 b= 0 c= 0 d= -113833 e= 0 f= 0 Ni2(Pyrophos)(cr) type= formula= Ni2(P2O7) mole vol.= 0.0000 cc mole wt.= 291.3206 g 2 species in reaction 2.000 Ni++ 1.000 Pyrophos---- * log10 K(298 K) = -9.8200 a= -9.82 b= 0 c= 0 d= 0 e= 0 f= 0 Ni3(AsO3)2(s) type= formula= Ni3(AsO3)2 mole vol.= 0.0000 cc mole wt.= 421.9072 g 5 species in reaction 3.000 Ni++ 4.000 H+ 4.000 e- 2.000 AsO4--- -2.000 H2O * log10 K(298 K) = -51.4800 a= -51.48 b= 0 c= 0 d= 0 e= 0 f= 0 Ni3(AsO4)2:8H2O(s) type= formula= Ni3(AsO4)2:8H2O mole vol.= 0.0000 cc mole wt.= 598.0236 g 3 species in reaction 3.000 Ni++ 2.000 AsO4--- 8.000 H2O * log10 K(298 K) = -28.1000 a= -28.09997687 b= 0 c= 0 d= 2557.15 e= 0 f= 0 Ni3(PO4)2(cr) type= formula= Ni3(PO4)2 mole vol.= 0.0000 cc mole wt.= 366.0096 g 3 species in reaction 3.000 Ni++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 10.2500 a= 10.24999455 b= 0 c= 0 d= 9832.24 e= 0 f= 0 Ni3O4(s) type= formula= Ni3O4 mole vol.= 0.0000 cc mole wt.= 240.0660 g 4 species in reaction 3.000 Ni++ -8.000 H+ -2.000 e- 4.000 H2O * log10 K(298 K) = 65.5001 a= 65.50010822 b= 0 c= 0 d= 25544.6 e= 0 f= 0 Ni5As2(cr) type= formula= Ni5As2 mole vol.= 0.0000 cc mole wt.= 443.2932 g 5 species in reaction 5.000 Ni++ 16.000 H+ 20.000 e- 2.000 AsO4--- -8.000 H2O * log10 K(298 K) = -106.7299 a= -106.729892 b= 0 c= 0 d= -25070 e= 0 f= 0 NiAs(cr) type= formula= NiAs mole vol.= 0.0000 cc mole wt.= 133.6116 g 5 species in reaction 1.000 Ni++ 8.000 H+ 7.000 e- 1.000 AsO4--- -4.000 H2O * log10 K(298 K) = -56.2401 a= -56.24010643 b= 0 c= 0 d= -14154.7 e= 0 f= 0 NiBr2(s) type= formula= NiBr2 mole vol.= 0.0000 cc mole wt.= 218.4980 g 2 species in reaction 1.000 Ni++ 2.000 Br- * log10 K(298 K) = 10.1700 a= 10.16999823 b= 0 c= 0 d= 4404.96 e= 0 f= 0 NiCl2(s) type= formula= NiCl2 mole vol.= 0.0000 cc mole wt.= 129.5954 g 2 species in reaction 1.000 Ni++ 2.000 Cl- * log10 K(298 K) = 8.6700 a= 8.670010163 b= 0 c= 0 d= 4401.83 e= 0 f= 0 NiCl2:2H2O(s) type= formula= NiCl2:2H2O mole vol.= 0.0000 cc mole wt.= 165.6250 g 3 species in reaction 1.000 Ni++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = 4.9200 a= 4.92000134 b= 0 c= 0 d= 2478.9 e= 0 f= 0 NiCl2:4H2O(s) type= formula= NiCl2:4H2O mole vol.= 0.0000 cc mole wt.= 201.6546 g 3 species in reaction 1.000 Ni++ 2.000 Cl- 4.000 H2O * log10 K(298 K) = 3.8200 a= 3.820001017 b= 0 c= 0 d= 963.396 e= 0 f= 0 NiCl2:6H2O(s) type= formula= NiCl2:6H2O mole vol.= 0.0000 cc mole wt.= 237.6842 g 3 species in reaction 1.000 Ni++ 2.000 Cl- 6.000 H2O * log10 K(298 K) = 3.0400 a= 3.040004634 b= 0 c= 0 d= -28.624 e= 0 f= 0 NiF2(s) type= formula= NiF2 mole vol.= 0.0000 cc mole wt.= 96.6868 g 2 species in reaction 1.000 Ni++ 2.000 F- * log10 K(298 K) = -0.1801 a= -0.1800576723 b= 0 c= 0 d= 3573.4 e= 0 f= 0 NiI2(s) type= formula= NiI2 mole vol.= 0.0000 cc mole wt.= 312.4990 g 2 species in reaction 1.000 Ni++ 2.000 I- * log10 K(298 K) = 9.6100 a= 9.610012978 b= 0 c= 0 d= 3768.76 e= 0 f= 0 NiSe2(cr) type= formula= NiSe2 mole vol.= 0.0000 cc mole wt.= 216.6100 g 4 species in reaction 1.000 Ni++ -2.000 H+ -2.000 e- 2.000 HSe- * log10 K(298 K) = -26.9000 a= -26.900013 b= 0 c= 0 d= -4653.38 e= 0 f= 0 Nontronite-Ca type= formula= Ca0.17Fe1.67Al0.67Si3.66O10(OH)2 mole vol.= 133.7400 cc mole wt.= 414.9521 g 6 species in reaction .170 Ca++ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = -2.8200 a= -2.82001407 b= 0 c= 0 d= 7622.29 e= 0 f= 0 Nontronite-K type= formula= K0.34Fe1.67Al0.67Si3.66O10(OH)2 mole vol.= 132.8500 cc mole wt.= 421.4322 g 6 species in reaction .340 K+ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = -3.9900 a= -3.98996968 b= 0 c= 0 d= 6654.24 e= 0 f= 0 Nontronite-Mg type= formula= Mg0.17Fe1.67Al0.67Si3.66O10(OH)2 mole vol.= 129.7400 cc mole wt.= 412.2707 g 6 species in reaction .170 Mg++ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = -3.3700 a= -3.370006037 b= 0 c= 0 d= 7683.92 e= 0 f= 0 Nontronite-Na type= formula= Na0.34Fe1.67Al0.67Si3.66O10(OH)2 mole vol.= 132.1200 cc mole wt.= 415.9554 g 6 species in reaction .340 Na+ 1.670 Fe+++ .670 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = -3.5000 a= -3.499959182 b= 0 c= 0 d= 7104.39 e= 0 f= 0 Nontronite_Nau-2 type= formula= Ca0.247K0.02(Si3.458Al0.542)(Fe1.688Al0.276Mg0.068)O10(OH)2 mole vol.= 136.3800 cc mole wt.= 419.7980 g 8 species in reaction .247 Ca++ .068 Mg++ .020 K+ 1.688 Fe+++ .818 Al+++ -8.168 H+ 3.458 H4(SiO4) -1.832 H2O * log10 K(298 K) = 1.3300 a= 1.330022036 b= 0 c= 0 d= 9794.89 e= 0 f= 0 Np(CO3)(OH)(s) type= formula= Np(CO3)(OH) mole vol.= 0.0000 cc mole wt.= 314.0629 g 4 species in reaction 1.000 Np+++ -1.000 H+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -6.0600 a= -6.06 b= 0 c= 0 d= 0 e= 0 f= 0 Np(HPO4)2(s) type= formula= Np(HPO4)2 mole vol.= 0.0000 cc mole wt.= 429.0034 g 3 species in reaction 1.000 Np++++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -16.0600 a= -16.06 b= 0 c= 0 d= 0 e= 0 f= 0 Np(OH)3(s) type= formula= Np(OH)3 mole vol.= 0.0000 cc mole wt.= 288.0687 g 3 species in reaction 1.000 Np+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 18.0000 a= 18 b= 0 c= 0 d= 0 e= 0 f= 0 Np(cr) type= formula= Np mole vol.= 0.0000 cc mole wt.= 237.0480 g 2 species in reaction 1.000 Np+++ 3.000 e- * log10 K(298 K) = 89.8500 a= 89.85000436 b= 0 c= 0 d= 27536.7 e= 0 f= 0 Np2O5(cr) type= formula= Np2O5 mole vol.= 0.0000 cc mole wt.= 554.0910 g 3 species in reaction 2.000 NpO2+ -2.000 H+ 1.000 H2O * log10 K(298 K) = 3.7000 a= 3.699979339 b= 0 c= 0 d= 4152.15 e= 0 f= 0 NpO2(CO3)(s) type= formula= NpO2(CO3) mole vol.= 0.0000 cc mole wt.= 329.0540 g 2 species in reaction 1.000 NpO2++ 1.000 CO3-- * log10 K(298 K) = -14.6000 a= -14.6 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)2Na3(s) type= formula= NpO2(CO3)2Na3 mole vol.= 0.0000 cc mole wt.= 458.0314 g 3 species in reaction 3.000 Na+ 1.000 NpO2+ 2.000 CO3-- * log10 K(298 K) = -14.2200 a= -14.22 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(CO3)Na:3.5H2O(s) type= formula= NpO2(CO3)Na:3.5H2O mole vol.= 0.0000 cc mole wt.= 415.0956 g 4 species in reaction 1.000 Na+ 1.000 NpO2+ 1.000 CO3-- 3.500 H2O * log10 K(298 K) = -11.0000 a= -10.99999093 b= 0 c= 0 d= -1619.08 e= 0 f= 0 NpO2(NH4)4(CO3)3(s) type= formula= NpO2(NH4)4(CO3)3 mole vol.= 0.0000 cc mole wt.= 521.2232 g 4 species in reaction 1.000 NpO2++ 4.000 H+ 3.000 CO3-- 4.000 NH3 * log10 K(298 K) = -26.8100 a= -26.81 b= 0 c= 0 d= 0 e= 0 f= 0 NpO2(s) type= formula= NpO2 mole vol.= 0.0000 cc mole wt.= 269.0460 g 3 species in reaction 1.000 Np++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = -9.6500 a= -9.650037917 b= 0 c= 0 d= 2804 e= 0 f= 0 NpO2:2H2O(am) type= formula= NpO2:2H2O mole vol.= 0.0000 cc mole wt.= 305.0756 g 3 species in reaction 1.000 Np++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = -0.7000 a= -0.7000367265 b= 0 c= 0 d= 4207.78 e= 0 f= 0 NpO2OH(am,aged) type= formula= NpO2OH mole vol.= 0.0000 cc mole wt.= 286.0529 g 3 species in reaction 1.000 NpO2+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 4.7000 a= 4.699984271 b= 0 c= 0 d= 2147.37 e= 0 f= 0 NpO2OH(am,fresh) type= formula= NpO2OH mole vol.= 0.0000 cc mole wt.= 286.0529 g 3 species in reaction 1.000 NpO2+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 5.3000 a= 5.299984271 b= 0 c= 0 d= 2147.37 e= 0 f= 0 NpO3:H2O(cr) type= formula= NpO3:H2O mole vol.= 0.0000 cc mole wt.= 303.0598 g 3 species in reaction 1.000 NpO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 5.4700 a= 5.469999864 b= 0 c= 0 d= 2728.63 e= 0 f= 0 Okenite type= formula= CaSi2O5:2H2O mole vol.= 94.7700 cc mole wt.= 212.2736 g 4 species in reaction 1.000 Ca++ -2.000 H+ 2.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 9.1800 a= 9.179991264 b= 0 c= 0 d= 2318.54 e= 0 f= 0 Olivine type= formula= Ni2(SiO4) mole vol.= 0.0000 cc mole wt.= 209.4615 g 3 species in reaction 2.000 Ni++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 19.6800 a= 19.68003045 b= 0 c= 0 d= 9152.26 e= 0 f= 0 Orpiment type= formula= As2S3 mole vol.= 0.0000 cc mole wt.= 246.0412 g 5 species in reaction 13.000 H+ 4.000 e- 3.000 HS- 2.000 AsO4--- -8.000 H2O * log10 K(298 K) = -127.4599 a= -127.459888 b= 0 c= 0 d= -28868.4 e= 0 f= 0 P(cr) type= formula= P mole vol.= 0.0000 cc mole wt.= 30.9738 g 4 species in reaction 6.000 H+ 5.000 e- 1.000 H2(PO4)- -4.000 H2O * log10 K(298 K) = 33.0400 a= 33.03999177 b= 0 c= 0 d= 8319.76 e= 0 f= 0 Pa(cr) type= formula= Pa mole vol.= 0.0000 cc mole wt.= 231.0359 g 2 species in reaction 4.000 e- 1.000 Pa++++ * log10 K(298 K) = 98.7500 a= 98.74997143 b= 0 c= 0 d= 32384.8 e= 0 f= 0 Pa2O5(s) type= formula= Pa2O5 mole vol.= 0.0000 cc mole wt.= 542.0668 g 3 species in reaction -2.000 H+ 2.000 PaO2+ 1.000 H2O * log10 K(298 K) = -4.0000 a= -4 b= 0 c= 0 d= 0 e= 0 f= 0 PaO2(s) type= formula= PaO2 mole vol.= 0.0000 cc mole wt.= 263.0339 g 3 species in reaction -4.000 H+ 1.000 Pa++++ 2.000 H2O * log10 K(298 K) = 0.6000 a= 0.6 b= 0 c= 0 d= 0 e= 0 f= 0 Paragonite type= formula= NaAl3Si3O10(OH)2 mole vol.= 132.1000 cc mole wt.= 382.1946 g 4 species in reaction 1.000 Na+ 3.000 Al+++ -10.000 H+ 3.000 H4(SiO4) * log10 K(298 K) = 16.7901 a= 16.79005813 b= 0 c= 0 d= 15754.8 e= 0 f= 0 Paralaurionite type= formula= PbCl(OH) mole vol.= 0.0000 cc mole wt.= 259.6596 g 4 species in reaction 1.000 Pb++ -1.000 H+ 1.000 Cl- 1.000 H2O * log10 K(298 K) = 0.6200 a= 0.62 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(H2PO4)2(cr) type= formula= Pb(H2PO4)2 mole vol.= 0.0000 cc mole wt.= 401.1712 g 2 species in reaction 1.000 Pb++ 2.000 H2(PO4)- * log10 K(298 K) = -9.8400 a= -9.84 b= 0 c= 0 d= 0 e= 0 f= 0 Pb(HPO4)(s) type= formula= Pb(HPO4) mole vol.= 0.0000 cc mole wt.= 303.1777 g 3 species in reaction 1.000 Pb++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -4.2500 a= -4.250000003 b= 0 c= 0 d= -858.511 e= 0 f= 0 Pb(OH)2(s) type= formula= Pb(OH)2 mole vol.= 0.0000 cc mole wt.= 241.2138 g 3 species in reaction 1.000 Pb++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 13.5100 a= 13.50999425 b= 0 c= 0 d= 2932.39 e= 0 f= 0 Pb(SeO3)(s) type= formula= Pb(SeO3) mole vol.= 0.0000 cc mole wt.= 334.1570 g 2 species in reaction 1.000 Pb++ 1.000 SeO3-- * log10 K(298 K) = -12.5000 a= -12.50001306 b= 0 c= 0 d= -1349.72 e= 0 f= 0 Pb(SeO4)(s) type= formula= Pb(SeO4) mole vol.= 0.0000 cc mole wt.= 350.1560 g 2 species in reaction 1.000 Pb++ 1.000 SeO4-- * log10 K(298 K) = -6.9000 a= -6.89999592 b= 0 c= 0 d= -246.542 e= 0 f= 0 Pb(cr) type= formula= Pb mole vol.= 0.0000 cc mole wt.= 207.2000 g 2 species in reaction 1.000 Pb++ 2.000 e- * log10 K(298 K) = 4.2500 a= 4.250003076 b= 0 c= 0 d= -48.0549 e= 0 f= 0 Pb2(SiO4)(s) type= formula= Pb2(SiO4) mole vol.= 0.0000 cc mole wt.= 506.4815 g 3 species in reaction 2.000 Pb++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 15.8900 a= 15.89001066 b= 0 c= 0 d= 4255.68 e= 0 f= 0 Pb3(AsO4)2(s) type= formula= Pb3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 899.4352 g 2 species in reaction 3.000 Pb++ 2.000 AsO4--- * log10 K(298 K) = -35.4000 a= -35.4 b= 0 c= 0 d= 0 e= 0 f= 0 Pb3(PO4)2(s) type= formula= Pb3(PO4)2 mole vol.= 0.0000 cc mole wt.= 811.5396 g 3 species in reaction 3.000 Pb++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -5.2600 a= -5.259996904 b= 0 c= 0 d= 185.325 e= 0 f= 0 Pb4O(PO4)2(cr) type= formula= Pb4O(PO4)2 mole vol.= 0.0000 cc mole wt.= 1034.7386 g 4 species in reaction 4.000 Pb++ -6.000 H+ 2.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = 2.2400 a= 2.24 b= 0 c= 0 d= 0 e= 0 f= 0 PbB2O4(s) type= formula= PbB2O4 mole vol.= 0.0000 cc mole wt.= 292.8180 g 3 species in reaction 1.000 Pb++ 2.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -10.8700 a= -10.87000619 b= 0 c= 0 d= -144.217 e= 0 f= 0 PbF2(s) type= formula= PbF2 mole vol.= 0.0000 cc mole wt.= 245.1968 g 2 species in reaction 1.000 Pb++ 2.000 F- * log10 K(298 K) = -7.5200 a= -7.519994696 b= 0 c= 0 d= -341.085 e= 0 f= 0 PbI2(cr) type= formula= PbI2 mole vol.= 0.0000 cc mole wt.= 461.0090 g 2 species in reaction 1.000 Pb++ 2.000 I- * log10 K(298 K) = -8.0500 a= -8.049993324 b= 0 c= 0 d= -3281.1 e= 0 f= 0 PbMoO4(s) type= formula= PbMoO4 mole vol.= 0.0000 cc mole wt.= 367.1360 g 2 species in reaction 1.000 Pb++ 1.000 MoO4-- * log10 K(298 K) = -15.8000 a= -15.79999488 b= 0 c= 0 d= -2914.37 e= 0 f= 0 PbSiO3(Glass) type= formula= PbSiO3 mole vol.= 0.0000 cc mole wt.= 283.2825 g 4 species in reaction 1.000 Pb++ -2.000 H+ 1.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 6.6000 a= 6.600012823 b= 0 c= 0 d= 1922.93 e= 0 f= 0 Pd(OH)2(s) type= formula= Pd(OH)2 mole vol.= 0.0000 cc mole wt.= 140.4338 g 3 species in reaction -2.000 H+ 1.000 Pd++ 2.000 H2O * log10 K(298 K) = -1.6100 a= -1.610000648 b= 0 c= 0 d= -690.998 e= 0 f= 0 Pd(cr) type= formula= Pd mole vol.= 0.0000 cc mole wt.= 106.4200 g 2 species in reaction 1.000 Pd++ 2.000 e- * log10 K(298 K) = -33.0300 a= -33.03000433 b= 0 c= 0 d= -9918.58 e= 0 f= 0 PdBr2(cr) type= formula= PdBr2 mole vol.= 0.0000 cc mole wt.= 266.2280 g 2 species in reaction 1.000 Pd++ 2.000 Br- * log10 K(298 K) = -13.3100 a= -13.30999185 b= 0 c= 0 d= -2677.96 e= 0 f= 0 PdCl2(cr) type= formula= PdCl2 mole vol.= 0.0000 cc mole wt.= 177.3254 g 2 species in reaction 1.000 Pd++ 2.000 Cl- * log10 K(298 K) = -9.2000 a= -9.199998804 b= 0 c= 0 d= -2843.02 e= 0 f= 0 PdI2(cr) type= formula= PdI2 mole vol.= 0.0000 cc mole wt.= 360.2290 g 2 species in reaction 1.000 Pd++ 2.000 I- * log10 K(298 K) = -25.8700 a= -25.87000258 b= 0 c= 0 d= -7308.99 e= 0 f= 0 PdO(s) type= formula= PdO mole vol.= 0.0000 cc mole wt.= 122.4190 g 3 species in reaction -2.000 H+ 1.000 Pd++ 1.000 H2O * log10 K(298 K) = -6.0200 a= -6.019998675 b= 0 c= 0 d= 550.594 e= 0 f= 0 PdS(s) type= formula= PdS mole vol.= 0.0000 cc mole wt.= 138.4860 g 3 species in reaction -1.000 H+ 1.000 Pd++ 1.000 HS- * log10 K(298 K) = -46.8600 a= -46.85998212 b= 0 c= 0 d= -12760.6 e= 0 f= 0 PdSe(s) type= formula= PdSe mole vol.= 0.0000 cc mole wt.= 185.3800 g 3 species in reaction -1.000 H+ 1.000 Pd++ 1.000 HSe- * log10 K(298 K) = -49.1099 a= -49.10992565 b= 0 c= 0 d= -13291.8 e= 0 f= 0 Pentahydrite type= formula= MgSO4:5H2O mole vol.= 0.0000 cc mole wt.= 210.4410 g 3 species in reaction 1.000 Mg++ 1.000 SO4-- 5.000 H2O * log10 K(298 K) = -1.2800 a= -1.279996369 b= 0 c= 0 d= 741.038 e= 0 f= 0 Periclase type= formula= MgO mole vol.= 0.0000 cc mole wt.= 40.3040 g 3 species in reaction 1.000 Mg++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 21.5800 a= 21.57999494 b= 0 c= 0 d= 7899.28 e= 0 f= 0 Phillipsite_Ca type= formula= Ca0.5AlSi3O8:3H2O mole vol.= 151.1500 cc mole wt.= 313.3134 g 5 species in reaction .500 Ca++ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 2.3200 a= 2.319953094 b= 0 c= 0 d= 4368.45 e= 0 f= 0 Phillipsite_K type= formula= KAlSi3O8:3H2O mole vol.= 148.9700 cc mole wt.= 332.3727 g 5 species in reaction 1.000 K+ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 0.0400 a= 0.04000394265 b= 0 c= 0 d= 2425.52 e= 0 f= 0 Phillipsite_Na type= formula= NaAlSi3O8:3H2O mole vol.= 149.6900 cc mole wt.= 316.2642 g 5 species in reaction 1.000 Na+ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 1.4500 a= 1.450002495 b= 0 c= 0 d= 3386.46 e= 0 f= 0 Phlogopite_K type= formula= KMg3Si3AlO10(OH)2 mole vol.= 149.6500 cc mole wt.= 417.2551 g 5 species in reaction 3.000 Mg++ 1.000 K+ 1.000 Al+++ -10.000 H+ 3.000 H4(SiO4) * log10 K(298 K) = 41.0801 a= 41.08012614 b= 0 c= 0 d= 18810.5 e= 0 f= 0 Phlogopite_Na type= formula= NaMg3AlSi3O10(OH)2 mole vol.= 144.5000 cc mole wt.= 401.1466 g 5 species in reaction 3.000 Mg++ 1.000 Na+ 1.000 Al+++ -10.000 H+ 3.000 H4(SiO4) * log10 K(298 K) = 44.1799 a= 44.17994701 b= 0 c= 0 d= 20432.8 e= 0 f= 0 Phosgenite type= formula= Pb2(CO3)Cl2 mole vol.= 0.0000 cc mole wt.= 545.3134 g 3 species in reaction 2.000 Pb++ 1.000 CO3-- 2.000 Cl- * log10 K(298 K) = 19.9000 a= 19.90000176 b= 0 c= 0 d= 8529.27 e= 0 f= 0 Picromerite type= formula= K2Mg(SO4)2:6H2O mole vol.= 0.0000 cc mole wt.= 402.7144 g 4 species in reaction 1.000 Mg++ 2.000 K+ 2.000 SO4-- 6.000 H2O * log10 K(298 K) = -4.3300 a= -4.330017847 b= 0 c= 0 d= -1749.15 e= 0 f= 0 Pirssonite type= formula= Na2Ca(CO3)2:2H2O mole vol.= 0.0000 cc mole wt.= 242.1032 g 4 species in reaction 1.000 Ca++ 2.000 Na+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -8.9100 a= -8.909995353 b= 0 c= 0 d= -500.345 e= 0 f= 0 Plattnerite type= formula= PbO2 mole vol.= 0.0000 cc mole wt.= 239.1980 g 4 species in reaction 1.000 Pb++ -4.000 H+ -2.000 e- 2.000 H2O * log10 K(298 K) = 49.5999 a= 49.59987513 b= 0 c= 0 d= 15475.2 e= 0 f= 0 Plumbogummite type= formula= PbAl3(PO4)2(OH)5:H2O mole vol.= 0.0000 cc mole wt.= 581.1334 g 5 species in reaction 1.000 Pb++ 3.000 Al+++ -9.000 H+ 2.000 H2(PO4)- 6.000 H2O * log10 K(298 K) = 13.2400 a= 13.24 b= 0 c= 0 d= 0 e= 0 f= 0 Plumbonacrite type= formula= Pb10(CO3)6O(OH)6 mole vol.= 0.0000 cc mole wt.= 2550.0884 g 4 species in reaction 10.000 Pb++ -8.000 H+ 6.000 CO3-- 7.000 H2O * log10 K(298 K) = -42.0900 a= -42.09 b= 0 c= 0 d= 0 e= 0 f= 0 Polydymite type= formula= Ni3S4 mole vol.= 0.0000 cc mole wt.= 304.3340 g 4 species in reaction 3.000 Ni++ -4.000 H+ -2.000 e- 4.000 HS- * log10 K(298 K) = -39.2700 a= -39.26997243 b= 0 c= 0 d= -5020.48 e= 0 f= 0 Polyhalite type= formula= K2MgCa2(SO4)4:2H2O mole vol.= 0.0000 cc mole wt.= 602.9352 g 5 species in reaction 2.000 Ca++ 1.000 Mg++ 2.000 K+ 4.000 SO4-- 2.000 H2O * log10 K(298 K) = -13.7400 a= -13.74 b= 0 c= 0 d= 0 e= 0 f= 0 Portlandite type= formula= Ca(OH)2 mole vol.= 33.0600 cc mole wt.= 74.0918 g 3 species in reaction 1.000 Ca++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 22.8100 a= 22.80999349 b= 0 c= 0 d= 6795.95 e= 0 f= 0 Pu(CO3)(OH)(s) type= formula= Pu(CO3)(OH) mole vol.= 0.0000 cc mole wt.= 321.0149 g 4 species in reaction 1.000 Pu+++ -1.000 H+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -5.7400 a= -5.74 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(HPO4)2(am,hyd) type= formula= Pu(HPO4)2 mole vol.= 0.0000 cc mole wt.= 435.9554 g 3 species in reaction 1.000 Pu++++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -16.0300 a= -16.02998216 b= 0 c= 0 d= 1707.57 e= 0 f= 0 Pu(OH)3(cr) type= formula= Pu(OH)3 mole vol.= 0.0000 cc mole wt.= 295.0207 g 3 species in reaction 1.000 Pu+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 15.8000 a= 15.8 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(OH)4(am) type= formula= Pu(OH)4 mole vol.= 0.0000 cc mole wt.= 312.0276 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = -0.8000 a= -0.8 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(PO4)(s,hyd) type= formula= Pu(PO4) mole vol.= 0.0000 cc mole wt.= 338.9698 g 3 species in reaction 1.000 Pu+++ -2.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = -5.0400 a= -5.04 b= 0 c= 0 d= 0 e= 0 f= 0 Pu(cr) type= formula= Pu mole vol.= 0.0000 cc mole wt.= 244.0000 g 2 species in reaction 1.000 Pu+++ 3.000 e- * log10 K(298 K) = 101.4300 a= 101.4299982 b= 0 c= 0 d= 30911.3 e= 0 f= 0 Pu2O3(s) type= formula= Pu2O3 mole vol.= 0.0000 cc mole wt.= 535.9970 g 3 species in reaction 2.000 Pu+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 50.6300 a= 50.63004496 b= 0 c= 0 d= 20113.6 e= 0 f= 0 PuAs(s) type= formula= PuAs mole vol.= 0.0000 cc mole wt.= 318.9216 g 5 species in reaction 1.000 PuO2++ 12.000 H+ 11.000 e- 1.000 AsO4--- -6.000 H2O * log10 K(298 K) = -44.4200 a= -44.42004815 b= 0 c= 0 d= -12787 e= 0 f= 0 PuF4(s) type= formula= PuF4 mole vol.= 0.0000 cc mole wt.= 319.9936 g 2 species in reaction 1.000 Pu++++ 4.000 F- * log10 K(298 K) = -26.0700 a= -26.07 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(CO3)(s) type= formula= PuO2(CO3) mole vol.= 0.0000 cc mole wt.= 336.0060 g 2 species in reaction 1.000 PuO2++ 1.000 CO3-- * log10 K(298 K) = -14.6500 a= -14.65 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(OH)(s) type= formula= PuO2(OH) mole vol.= 0.0000 cc mole wt.= 293.0049 g 3 species in reaction 1.000 PuO2+ -1.000 H+ 1.000 H2O * log10 K(298 K) = 5.0000 a= 4.999986425 b= 0 c= 0 d= 1888.97 e= 0 f= 0 PuO2(OH)2:H2O(s) type= formula= PuO2(OH)2:H2O mole vol.= 0.0000 cc mole wt.= 328.0266 g 3 species in reaction 1.000 PuO2++ -2.000 H+ 3.000 H2O * log10 K(298 K) = 5.5000 a= 5.500008605 b= 0 c= 0 d= 2440.25 e= 0 f= 0 PuO2(Ox):3H2O(s) type= formula= PuO2(COO)2:3H2O mole vol.= 0.0000 cc mole wt.= 418.0604 g 3 species in reaction 1.000 PuO2++ 1.000 Ox-- 3.000 H2O * log10 K(298 K) = -10.0000 a= -10 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(coll,hyd) type= formula= PuO2 mole vol.= 0.0000 cc mole wt.= 275.9980 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 0.2000 a= 0.2 b= 0 c= 0 d= 0 e= 0 f= 0 PuO2(s) type= formula= PuO2 mole vol.= 0.0000 cc mole wt.= 275.9980 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = -8.0300 a= -8.029965018 b= 0 c= 0 d= 2912.28 e= 0 f= 0 PuO2:2H2O(am) type= formula= PuO2:2H2O mole vol.= 0.0000 cc mole wt.= 312.0276 g 3 species in reaction 1.000 Pu++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = -2.3700 a= -2.369982962 b= 0 c= 0 d= 3058.07 e= 0 f= 0 Pyrite type= formula= FeS2 mole vol.= 23.9400 cc mole wt.= 119.9790 g 4 species in reaction 1.000 Fe++ -2.000 H+ -2.000 e- 2.000 HS- * log10 K(298 K) = -15.7900 a= -15.78999315 b= 0 c= 0 d= -2353.12 e= 0 f= 0 Pyrochroite type= formula= Mn(OH)2 mole vol.= 0.0000 cc mole wt.= 88.9518 g 3 species in reaction 1.000 Mn++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 15.3000 a= 15.3 b= 0 c= 0 d= 0 e= 0 f= 0 Pyromorphite type= formula= Pb5Cl(PO4)3 mole vol.= 0.0000 cc mole wt.= 1356.3621 g 4 species in reaction 5.000 Pb++ -6.000 H+ 1.000 Cl- 3.000 H2(PO4)- * log10 K(298 K) = -25.7500 a= -25.75 b= 0 c= 0 d= 0 e= 0 f= 0 Pyromorphite-Br type= formula= Pb5Br(PO4)3 mole vol.= 0.0000 cc mole wt.= 1400.8134 g 4 species in reaction 5.000 Pb++ -6.000 H+ 1.000 Br- 3.000 H2(PO4)- * log10 K(298 K) = -19.4500 a= -19.45 b= 0 c= 0 d= 0 e= 0 f= 0 Pyromorphite-F type= formula= Pb5F(PO4)3 mole vol.= 0.0000 cc mole wt.= 1339.9078 g 4 species in reaction 5.000 Pb++ -6.000 H+ 1.000 F- 3.000 H2(PO4)- * log10 K(298 K) = -13.1000 a= -13.1 b= 0 c= 0 d= 0 e= 0 f= 0 Pyromorphite-OH type= formula= Pb5(OH)(PO4)3 mole vol.= 0.0000 cc mole wt.= 1337.9163 g 4 species in reaction 5.000 Pb++ -7.000 H+ 3.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -4.1500 a= -4.15 b= 0 c= 0 d= 0 e= 0 f= 0 Pyrophyllite type= formula= Al2Si4O10(OH)2 mole vol.= 128.1000 cc mole wt.= 360.3088 g 4 species in reaction 2.000 Al+++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = -0.4400 a= -0.4400349153 b= 0 c= 0 d= 7221.6 e= 0 f= 0 Pyrrhotite type= formula= Fe0.87S mole vol.= 18.2000 cc mole wt.= 80.6529 g 4 species in reaction .870 Fe++ -1.000 H+ -.260 e- 1.000 HS- * log10 K(298 K) = -5.6700 a= -5.669996347 b= 0 c= 0 d= -151.477 e= 0 f= 0 Quartz type= formula= SiO2 mole vol.= 22.6900 cc mole wt.= 60.0835 g 2 species in reaction 1.000 H4(SiO4) -2.000 H2O * log10 K(298 K) = -3.7400 a= -3.74001489 b= 0 c= 0 d= -1105.58 e= 0 f= 0 Ra(CO3)(s) type= formula= Ra(CO3) mole vol.= 0.0000 cc mole wt.= 286.0330 g 2 species in reaction 1.000 Ra++ 1.000 CO3-- * log10 K(298 K) = -8.3000 a= -8.300002673 b= 0 c= 0 d= -712.466 e= 0 f= 0 Ra(NO3)2(s) type= formula= Ra(NO3)2 mole vol.= 0.0000 cc mole wt.= 350.0324 g 2 species in reaction 1.000 Ra++ 2.000 NO3- * log10 K(298 K) = -2.2100 a= -2.210017166 b= 0 c= 0 d= -2610.69 e= 0 f= 0 Ra(OH)2(s) type= formula= Ra(OH)2 mole vol.= 0.0000 cc mole wt.= 260.0388 g 3 species in reaction -2.000 H+ 1.000 Ra++ 2.000 H2O * log10 K(298 K) = 30.9900 a= 30.98998896 b= 0 c= 0 d= 7822.6 e= 0 f= 0 Ra(SO4)(s) type= formula= Ra(SO4) mole vol.= 0.0000 cc mole wt.= 322.0870 g 2 species in reaction 1.000 Ra++ 1.000 SO4-- * log10 K(298 K) = -10.2600 a= -10.25999885 b= 0 c= 0 d= -2037.84 e= 0 f= 0 Ra(cr) type= formula= Ra mole vol.= 0.0000 cc mole wt.= 226.0250 g 2 species in reaction 1.000 Ra++ 2.000 e- * log10 K(298 K) = 98.4399 a= 98.43991568 b= 0 c= 0 d= 27580.6 e= 0 f= 0 RaCl2:2H2O(s) type= formula= RaCl2:2H2O mole vol.= 0.0000 cc mole wt.= 332.9600 g 3 species in reaction 1.000 Ra++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = -0.7300 a= -0.7300067399 b= 0 c= 0 d= -1683.02 e= 0 f= 0 Rb(cr) type= formula= Rb mole vol.= 0.0000 cc mole wt.= 85.4678 g 2 species in reaction 1.000 e- 1.000 Rb+ * log10 K(298 K) = 49.7600 a= 49.76002817 b= 0 c= 0 d= 13116.9 e= 0 f= 0 Rb2MoO4(s) type= formula= Rb2MoO4 mole vol.= 0.0000 cc mole wt.= 330.8716 g 2 species in reaction 1.000 MoO4-- 2.000 Rb+ * log10 K(298 K) = 3.1000 a= 3.099995397 b= 0 c= 0 d= 277.621 e= 0 f= 0 Realgar type= formula= AsS mole vol.= 0.0000 cc mole wt.= 106.9876 g 5 species in reaction 7.000 H+ 3.000 e- 1.000 HS- 1.000 AsO4--- -4.000 H2O * log10 K(298 K) = -67.0601 a= -67.06005056 b= 0 c= 0 d= -16207.3 e= 0 f= 0 Rhodochrosite type= formula= Mn(CO3) mole vol.= 0.0000 cc mole wt.= 114.9460 g 2 species in reaction 1.000 Mn++ 1.000 CO3-- * log10 K(298 K) = -11.1300 a= -11.13004033 b= 0 c= 0 d= 308.126 e= 0 f= 0 Rhodochrosite(syn) type= formula= Mn(CO3) mole vol.= 0.0000 cc mole wt.= 114.9460 g 2 species in reaction 1.000 Mn++ 1.000 CO3-- * log10 K(298 K) = -10.4900 a= -10.4900349 b= 0 c= 0 d= 357.382 e= 0 f= 0 Ripidolite_Cca-2 type= formula= (Mg2.964Fe1.712Fe0.215Al1.116Ca0.011)(Si2.633Al1.367)O10(OH)8 mole vol.= 211.8300 cc mole wt.= 617.0874 g 8 species in reaction .011 Ca++ 2.964 Mg++ .215 Fe+++ 1.712 Fe++ 2.483 Al+++ -17.468 H+ 2.633 H4(SiO4) 7.468 H2O * log10 K(298 K) = 61.3202 a= 61.32017972 b= 0 c= 0 d= 33084 e= 0 f= 0 Romarchite type= formula= SnO mole vol.= 0.0000 cc mole wt.= 134.7090 g 3 species in reaction 1.000 Sn++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 1.5900 a= 1.590001849 b= 0 c= 0 d= 585.382 e= 0 f= 0 Rutherfordine type= formula= (UO2)(CO3) mole vol.= 0.0000 cc mole wt.= 330.0349 g 2 species in reaction 1.000 UO2++ 1.000 CO3-- * log10 K(298 K) = -14.7600 a= -14.75996232 b= 0 c= 0 d= 152.992 e= 0 f= 0 S(cr) type= formula= S mole vol.= 0.0000 cc mole wt.= 32.0660 g 3 species in reaction -1.000 H+ -2.000 e- 1.000 HS- * log10 K(298 K) = -2.1400 a= -2.139996929 b= 0 c= 0 d= 851.407 e= 0 f= 0 Sacchite type= formula= MnCl2 mole vol.= 0.0000 cc mole wt.= 125.8434 g 2 species in reaction 1.000 Mn++ 2.000 Cl- * log10 K(298 K) = 8.7700 a= 8.77 b= 0 c= 0 d= 0 e= 0 f= 0 Sanidine type= formula= KAlSi3O8 mole vol.= 0.0000 cc mole wt.= 278.3283 g 5 species in reaction 1.000 K+ 1.000 Al+++ -4.000 H+ 3.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 0.5800 a= 0.5800006205 b= 0 c= 0 d= 3398.94 e= 0 f= 0 Saponite-Ca type= formula= Ca0.17Mg3Al0.34Si3.66O10(OH)2 mole vol.= 142.5700 cc mole wt.= 385.6987 g 6 species in reaction .170 Ca++ 3.000 Mg++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 29.3399 a= 29.3399377 b= 0 c= 0 d= 14171.2 e= 0 f= 0 Saponite-FeCa type= formula= Ca0.17Mg2FeAl0.34Si3.66O10(OH)2 mole vol.= 145.1500 cc mole wt.= 417.2407 g 7 species in reaction .170 Ca++ 2.000 Mg++ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 24.4599 a= 24.45993289 b= 0 c= 0 d= 13537.6 e= 0 f= 0 Saponite-FeK type= formula= K0.34Mg2FeAl0.34Si3.66O10(OH)2 mole vol.= 144.2700 cc mole wt.= 423.7209 g 7 species in reaction 2.000 Mg++ .340 K+ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 25.3801 a= 25.38006797 b= 0 c= 0 d= 12569.1 e= 0 f= 0 Saponite-FeMg type= formula= Mg0.17Mg2FeAl0.34Si3.66O10(OH)2 mole vol.= 141.1600 cc mole wt.= 414.5593 g 6 species in reaction 2.170 Mg++ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 25.9999 a= 25.99986329 b= 0 c= 0 d= 13598.7 e= 0 f= 0 Saponite-FeNa type= formula= Na0.34Mg2FeAl0.34Si3.66O10(OH)2 mole vol.= 143.5400 cc mole wt.= 418.2440 g 7 species in reaction 2.000 Mg++ .340 Na+ 1.000 Fe++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 25.7100 a= 25.71000812 b= 0 c= 0 d= 12967.5 e= 0 f= 0 Saponite-K type= formula= K0.34Mg3Al0.34Si3.66O10(OH)2 mole vol.= 141.6900 cc mole wt.= 392.1789 g 6 species in reaction 3.000 Mg++ .340 K+ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 28.1700 a= 28.17004979 b= 0 c= 0 d= 13203.2 e= 0 f= 0 Saponite-Mg type= formula= Mg0.17Mg3Al0.34Si3.66O10(OH)2 mole vol.= 138.5800 cc mole wt.= 383.0173 g 5 species in reaction 3.170 Mg++ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 28.7901 a= 28.79008051 b= 0 c= 0 d= 14232.9 e= 0 f= 0 Saponite-Na type= formula= Na0.34Mg3Al0.34Si3.66O10(OH)2 mole vol.= 140.9600 cc mole wt.= 386.7020 g 6 species in reaction 3.000 Mg++ .340 Na+ .340 Al+++ -7.360 H+ 3.660 H4(SiO4) -2.640 H2O * log10 K(298 K) = 28.6699 a= 28.66989259 b= 0 c= 0 d= 13653.3 e= 0 f= 0 Saponite_SapCa type= formula= (Na0.394K0.021Ca0.038)(Si3.569Al0.397)(Mg2.949Fe0.034Fe0.021)O10(OH)2 mole vol.= 141.6600 cc mole wt.= 391.1016 g 10 species in reaction .038 Ca++ 2.949 Mg++ .021 K+ .394 Na+ .034 Fe+++ .021 Fe++ .397 Al+++ -7.724 H+ 3.569 H4(SiO4) -2.276 H2O * log10 K(298 K) = 31.4499 a= 31.44990548 b= 0 c= 0 d= 14912.6 e= 0 f= 0 Saponite_SapCa(4.151H2O) type= formula= (Na0.394K0.021Ca0.038)(Si3.569Al0.397)(Mg2.949Fe0.034Fe0.021)O10(OH)2:4.151H2O mole vol.= 216.6700 cc mole wt.= 465.8811 g 10 species in reaction .038 Ca++ 2.949 Mg++ .021 K+ .394 Na+ .034 Fe+++ .021 Fe++ .397 Al+++ -7.724 H+ 3.569 H4(SiO4) 1.875 H2O * log10 K(298 K) = 28.2699 a= 28.26992561 b= 0 c= 0 d= 13350.3 e= 0 f= 0 Sb(cr) type= formula= Sb mole vol.= 0.0000 cc mole wt.= 121.7600 g 4 species in reaction 3.000 H+ 3.000 e- 1.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -11.6700 a= -11.67000754 b= 0 c= 0 d= -4366.57 e= 0 f= 0 Sb2O5(s) type= formula= Sb2O5 mole vol.= 0.0000 cc mole wt.= 323.5150 g 2 species in reaction 2.000 Sb(OH)5 -5.000 H2O * log10 K(298 K) = -7.4000 a= -7.4 b= 0 c= 0 d= 0 e= 0 f= 0 Schoepite type= formula= UO3:2H2O mole vol.= 0.0000 cc mole wt.= 322.0555 g 3 species in reaction 1.000 UO2++ -2.000 H+ 3.000 H2O * log10 K(298 K) = 5.9600 a= 5.96 b= 0 c= 0 d= 0 e= 0 f= 0 Schoepite(des) type= formula= UO3:0.9H2O mole vol.= 0.0000 cc mole wt.= 302.2392 g 3 species in reaction 1.000 UO2++ -2.000 H+ 1.900 H2O * log10 K(298 K) = 5.0000 a= 4.999992101 b= 0 c= 0 d= 2913.43 e= 0 f= 0 Scolecite type= formula= CaAl2Si3O10:3H2O mole vol.= 172.3000 cc mole wt.= 392.3319 g 5 species in reaction 1.000 Ca++ 2.000 Al+++ -8.000 H+ 3.000 H4(SiO4) 1.000 H2O * log10 K(298 K) = 16.6299 a= 16.62987961 b= 0 c= 0 d= 12547.1 e= 0 f= 0 Se(s) type= formula= Se mole vol.= 0.0000 cc mole wt.= 78.9600 g 3 species in reaction -1.000 H+ -2.000 e- 1.000 HSe- * log10 K(298 K) = -7.6200 a= -7.619999036 b= 0 c= 0 d= -746.94 e= 0 f= 0 Se3U(cr) type= formula= Se3U mole vol.= 0.0000 cc mole wt.= 474.9089 g 4 species in reaction 1.000 UO2++ 1.000 H+ 3.000 HSe- -2.000 H2O * log10 K(298 K) = -18.2700 a= -18.27000825 b= 0 c= 0 d= -2484.23 e= 0 f= 0 SeO3(cr) type= formula= SeO3 mole vol.= 0.0000 cc mole wt.= 126.9570 g 3 species in reaction 2.000 H+ 1.000 SeO4-- -1.000 H2O * log10 K(298 K) = 20.3600 a= 20.35999665 b= 0 c= 0 d= 8073.74 e= 0 f= 0 SeU(cr) type= formula= SeU mole vol.= 0.0000 cc mole wt.= 316.9889 g 4 species in reaction 1.000 U++++ -1.000 H+ 2.000 e- 1.000 HSe- * log10 K(298 K) = 37.3400 a= 37.33996574 b= 0 c= 0 d= 15926 e= 0 f= 0 Si(cr) type= formula= Si mole vol.= 0.0000 cc mole wt.= 28.0855 g 4 species in reaction 4.000 H+ 4.000 e- 1.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 63.1900 a= 63.19003268 b= 0 c= 0 d= 16603.7 e= 0 f= 0 SiO2(am) type= formula= SiO2 mole vol.= 29.0000 cc mole wt.= 60.0835 g 2 species in reaction 1.000 H4(SiO4) -2.000 H2O * log10 K(298 K) = -2.7100 a= -2.709999516 b= 0 c= 0 d= -706.302 e= 0 f= 0 Siderite type= formula= Fe(CO3) mole vol.= 29.3800 cc mole wt.= 115.8550 g 2 species in reaction 1.000 Fe++ 1.000 CO3-- * log10 K(298 K) = -10.8000 a= -10.79998947 b= 0 c= 0 d= 627.43 e= 0 f= 0 Siderophyllite type= formula= KFe2Al3Si2O10(OH)2 mole vol.= 150.6300 cc mole wt.= 481.9116 g 6 species in reaction 1.000 K+ 2.000 Fe++ 3.000 Al+++ -14.000 H+ 2.000 H4(SiO4) 4.000 H2O * log10 K(298 K) = 40.5601 a= 40.56009795 b= 0 c= 0 d= 25321.7 e= 0 f= 0 Sm(OH)3(am) type= formula= Sm(OH)3 mole vol.= 0.0000 cc mole wt.= 201.3807 g 3 species in reaction 1.000 Sm+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 17.8500 a= 17.85 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(OH)3(s) type= formula= Sm(OH)3 mole vol.= 0.0000 cc mole wt.= 201.3807 g 3 species in reaction 1.000 Sm+++ -3.000 H+ 3.000 H2O * log10 K(298 K) = 16.1300 a= 16.13 b= 0 c= 0 d= 0 e= 0 f= 0 Sm(cr) type= formula= Sm mole vol.= 0.0000 cc mole wt.= 150.3600 g 2 species in reaction 1.000 Sm+++ 3.000 e- * log10 K(298 K) = 116.6199 a= 116.6198932 b= 0 c= 0 d= 36103.7 e= 0 f= 0 Sm2(CO3)3(s) type= formula= Sm2(CO3)3 mole vol.= 0.0000 cc mole wt.= 480.7440 g 2 species in reaction 2.000 Sm+++ 3.000 CO3-- * log10 K(298 K) = -34.5000 a= -34.5 b= 0 c= 0 d= 0 e= 0 f= 0 Sm2(SO4)3(s) type= formula= Sm2(SO4)3 mole vol.= 0.0000 cc mole wt.= 588.9060 g 2 species in reaction 2.000 Sm+++ 3.000 SO4-- * log10 K(298 K) = -9.7999 a= -9.799937397 b= 0 c= 0 d= 11037.8 e= 0 f= 0 Sm2O3(s) type= formula= Sm2O3 mole vol.= 0.0000 cc mole wt.= 348.7170 g 3 species in reaction 2.000 Sm+++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 43.1101 a= 43.11006398 b= 0 c= 0 d= 18544.8 e= 0 f= 0 SmCl3:6H2O(s) type= formula= SmCl3:6H2O mole vol.= 0.0000 cc mole wt.= 364.8069 g 3 species in reaction 1.000 Sm+++ 3.000 Cl- 6.000 H2O * log10 K(298 K) = 4.8000 a= 4.800008055 b= 0 c= 0 d= 2001.54 e= 0 f= 0 SmF3:0.5H2O(s) type= formula= SmF3:0.5H2O mole vol.= 0.0000 cc mole wt.= 216.3626 g 3 species in reaction 1.000 Sm+++ 3.000 F- .500 H2O * log10 K(298 K) = -17.5000 a= -17.5 b= 0 c= 0 d= 0 e= 0 f= 0 SmOHCO3(cr) type= formula= SmOHCO3 mole vol.= 0.0000 cc mole wt.= 227.3749 g 4 species in reaction 1.000 Sm+++ -1.000 H+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = -10.2300 a= -10.22998638 b= 0 c= 0 d= 2029.69 e= 0 f= 0 SmOHCO3:0.5H2O(cr) type= formula= SmOHCO3:0.5H2O mole vol.= 0.0000 cc mole wt.= 236.3823 g 4 species in reaction 1.000 Sm+++ -1.000 H+ 1.000 CO3-- 1.500 H2O * log10 K(298 K) = -7.3100 a= -7.310023277 b= 0 c= 0 d= 2667.72 e= 0 f= 0 SmPO4:H2O(am) type= formula= SmPO4:H2O mole vol.= 0.0000 cc mole wt.= 263.3446 g 4 species in reaction 1.000 Sm+++ -2.000 H+ 1.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -5.0000 a= -5.000003409 b= 0 c= 0 d= 1383.09 e= 0 f= 0 SmPO4:H2O(cr) type= formula= SmPO4:H2O mole vol.= 0.0000 cc mole wt.= 263.3446 g 4 species in reaction 1.000 Sm+++ -2.000 H+ 1.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = -6.6700 a= -6.67 b= 0 c= 0 d= 0 e= 0 f= 0 SmectiteMX80 type= formula= Na0.409K0.024Ca0.009(Si3.738Al0.262)(Al1.598Mg0.214Fe0.173Fe0.035)O10(OH)2 mole vol.= 134.9200 cc mole wt.= 376.6923 g 10 species in reaction .009 Ca++ .214 Mg++ .024 K+ .409 Na+ .173 Fe+++ .035 Fe++ 1.860 Al+++ -7.048 H+ 3.738 H4(SiO4) -2.952 H2O * log10 K(298 K) = 5.2600 a= 5.260049438 b= 0 c= 0 d= 9612.49 e= 0 f= 0 Smectite_MX80(3.989H2O) type= formula= (Ca0.009Na0.409K0.024)(Si3.738Al0.262)(Al1.598Fe0.173Fe0.035Mg0.214)O10(OH)2:3.989H2O mole vol.= 207.0000 cc mole wt.= 448.5534 g 10 species in reaction .009 Ca++ .214 Mg++ .024 K+ .409 Na+ .173 Fe+++ .035 Fe++ 1.860 Al+++ -7.048 H+ 3.738 H4(SiO4) 1.037 H2O * log10 K(298 K) = 1.7500 a= 1.750013366 b= 0 c= 0 d= 8213.47 e= 0 f= 0 Smectite_MX80(5.189H2O) type= formula= (Ca0.009Na0.409K0.024)(Si3.738Al0.262)(Al1.598Fe0.173Fe0.035Mg0.214)O10(OH)2:5.189H2O mole vol.= 228.6900 cc mole wt.= 470.1711 g 10 species in reaction .009 Ca++ .214 Mg++ .024 K+ .409 Na+ .173 Fe+++ .035 Fe++ 1.860 Al+++ -7.048 H+ 3.738 H4(SiO4) 2.237 H2O * log10 K(298 K) = 1.4100 a= 1.410002298 b= 0 c= 0 d= 7790.69 e= 0 f= 0 Sn(OH)4(s) type= formula= Sn(OH)4 mole vol.= 0.0000 cc mole wt.= 186.7376 g 3 species in reaction 1.000 Sn++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = -1.2800 a= -1.28 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(OH)Cl(s) type= formula= Sn(OH)Cl mole vol.= 0.0000 cc mole wt.= 171.1696 g 4 species in reaction 1.000 Sn++ -1.000 H+ 1.000 Cl- 1.000 H2O * log10 K(298 K) = -2.4200 a= -2.42 b= 0 c= 0 d= 0 e= 0 f= 0 Sn(cr)(alfa) type= formula= Sn mole vol.= 0.0000 cc mole wt.= 118.7100 g 2 species in reaction 1.000 Sn++ 2.000 e- * log10 K(298 K) = 4.8200 a= 4.820003988 b= 0 c= 0 d= 398.908 e= 0 f= 0 Sn(cr)(beta) type= formula= Sn mole vol.= 0.0000 cc mole wt.= 118.7100 g 2 species in reaction 1.000 Sn++ 2.000 e- * log10 K(298 K) = 4.8000 a= 4.800003076 b= 0 c= 0 d= 502.33 e= 0 f= 0 SnO2(am) type= formula= SnO2 mole vol.= 0.0000 cc mole wt.= 150.7080 g 3 species in reaction 1.000 Sn++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = -14.7700 a= -14.77 b= 0 c= 0 d= 0 e= 0 f= 0 SnSe(alfa) type= formula= SnSe mole vol.= 0.0000 cc mole wt.= 197.6700 g 3 species in reaction 1.000 Sn++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -21.6700 a= -21.66998774 b= 0 c= 0 d= -5964.18 e= 0 f= 0 SnSe2(s) type= formula= SnSe2 mole vol.= 0.0000 cc mole wt.= 276.6300 g 4 species in reaction 1.000 Sn++ -2.000 H+ -2.000 e- 2.000 HSe- * log10 K(298 K) = -30.7900 a= -30.79001419 b= 0 c= 0 d= -6993.19 e= 0 f= 0 Soddyite(synt1) type= formula= (UO2)2SiO4:2H2O mole vol.= 0.0000 cc mole wt.= 668.1649 g 4 species in reaction 2.000 UO2++ -4.000 H+ 1.000 H4(SiO4) 2.000 H2O * log10 K(298 K) = 3.9000 a= 3.9 b= 0 c= 0 d= 0 e= 0 f= 0 Soddyite(synt2) type= formula= (UO2)2SiO4:2H2O mole vol.= 0.0000 cc mole wt.= 668.1649 g 4 species in reaction 2.000 UO2++ -4.000 H+ 1.000 H4(SiO4) 2.000 H2O * log10 K(298 K) = 6.4300 a= 6.429992551 b= 0 c= 0 d= 1329.55 e= 0 f= 0 Sodium-compreignacite type= formula= Na2(UO2)6O4(OH)6:7H2O mole vol.= 0.0000 cc mole wt.= 1958.2820 g 4 species in reaction 2.000 Na+ 6.000 UO2++ -14.000 H+ 17.000 H2O * log10 K(298 K) = 39.3999 a= 39.39992955 b= 0 c= 0 d= 27025.1 e= 0 f= 0 Sphaerocobaltite type= formula= CoCO3 mole vol.= 0.0000 cc mole wt.= 118.9412 g 2 species in reaction 1.000 Co++ 1.000 CO3-- * log10 K(298 K) = -11.2000 a= -11.20001534 b= 0 c= 0 d= 492.092 e= 0 f= 0 Sr(HPO4)(s) type= formula= Sr(HPO4) mole vol.= 0.0000 cc mole wt.= 183.5977 g 3 species in reaction 1.000 Sr++ -1.000 H+ 1.000 H2(PO4)- * log10 K(298 K) = 0.2800 a= 0.2800162485 b= 0 c= 0 d= 1017.88 e= 0 f= 0 Sr(NO3)2(cr) type= formula= Sr(NO3)2 mole vol.= 0.0000 cc mole wt.= 211.6274 g 2 species in reaction 1.000 Sr++ 2.000 NO3- * log10 K(298 K) = 0.4000 a= 0.3999962821 b= 0 c= 0 d= -927.668 e= 0 f= 0 Sr(NO3)2:2H2O(s) type= formula= Sr(NO3)2:2H2O mole vol.= 0.0000 cc mole wt.= 247.6570 g 3 species in reaction 1.000 Sr++ 2.000 NO3- 2.000 H2O * log10 K(298 K) = 0.0500 a= 0.05 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(NO3)2:4H2O(s) type= formula= Sr(NO3)2:4H2O mole vol.= 0.0000 cc mole wt.= 283.6866 g 3 species in reaction 1.000 Sr++ 2.000 NO3- 4.000 H2O * log10 K(298 K) = -0.8700 a= -0.87 b= 0 c= 0 d= 0 e= 0 f= 0 Sr(OH)2(s) type= formula= Sr(OH)2 mole vol.= 0.0000 cc mole wt.= 121.6338 g 3 species in reaction 1.000 Sr++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 27.5100 a= 27.50999534 b= 0 c= 0 d= 8026.73 e= 0 f= 0 Sr(OH)2:8H2O(s) type= formula= Sr(OH)2:8H2O mole vol.= 0.0000 cc mole wt.= 265.7522 g 3 species in reaction 1.000 Sr++ -2.000 H+ 10.000 H2O * log10 K(298 K) = 24.3199 a= 24.31994667 b= 0 c= 0 d= 2977.31 e= 0 f= 0 Sr(SeO3)(cr) type= formula= Sr(SeO3) mole vol.= 0.0000 cc mole wt.= 214.5770 g 2 species in reaction 1.000 Sr++ 1.000 SeO3-- * log10 K(298 K) = -6.3000 a= -6.299995026 b= 0 c= 0 d= 321.759 e= 0 f= 0 Sr(SeO4)(s) type= formula= Sr(SeO4) mole vol.= 0.0000 cc mole wt.= 230.5760 g 2 species in reaction 1.000 Sr++ 1.000 SeO4-- * log10 K(298 K) = -4.3500 a= -4.350007431 b= 0 c= 0 d= 1140.83 e= 0 f= 0 Sr(cr) type= formula= Sr mole vol.= 0.0000 cc mole wt.= 87.6200 g 2 species in reaction 1.000 Sr++ 2.000 e- * log10 K(298 K) = 98.7901 a= 98.79009992 b= 0 c= 0 d= 28775.5 e= 0 f= 0 Sr2SiO4(s) type= formula= Sr2SiO4 mole vol.= 0.0000 cc mole wt.= 267.3215 g 3 species in reaction 2.000 Sr++ -4.000 H+ 1.000 H4(SiO4) * log10 K(298 K) = 43.2500 a= 43.25 b= 0 c= 0 d= 0 e= 0 f= 0 Sr3(AsO4)2(s) type= formula= Sr3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 540.6952 g 2 species in reaction 3.000 Sr++ 2.000 AsO4--- * log10 K(298 K) = -16.0800 a= -16.07996388 b= 0 c= 0 d= 5719.78 e= 0 f= 0 Sr3(PO4)2(s) type= formula= Sr3(PO4)2 mole vol.= 0.0000 cc mole wt.= 452.7996 g 3 species in reaction 3.000 Sr++ -4.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = 10.5300 a= 10.53001732 b= 0 c= 0 d= 7725.34 e= 0 f= 0 Sr5(PO4)3(OH)(s) type= formula= Sr5(PO4)3(OH) mole vol.= 0.0000 cc mole wt.= 740.0163 g 4 species in reaction 5.000 Sr++ -7.000 H+ 3.000 H2(PO4)- 1.000 H2O * log10 K(298 K) = 7.1702 a= 7.170153195 b= 0 c= 0 d= 13665.9 e= 0 f= 0 SrBr2(s) type= formula= SrBr2 mole vol.= 0.0000 cc mole wt.= 247.4280 g 2 species in reaction 1.000 Sr++ 2.000 Br- * log10 K(298 K) = 12.5000 a= 12.5 b= 0 c= 0 d= 0 e= 0 f= 0 SrBr2:6H2O(s) type= formula= SrBr2:6H2O mole vol.= 0.0000 cc mole wt.= 355.5168 g 3 species in reaction 1.000 Sr++ 2.000 Br- 6.000 H2O * log10 K(298 K) = 2.8200 a= 2.82 b= 0 c= 0 d= 0 e= 0 f= 0 SrBr2:H2O(s) type= formula= SrBr2:H2O mole vol.= 0.0000 cc mole wt.= 265.4428 g 3 species in reaction 1.000 Sr++ 2.000 Br- 1.000 H2O * log10 K(298 K) = 8.8000 a= 8.8 b= 0 c= 0 d= 0 e= 0 f= 0 SrCl2(s) type= formula= SrCl2 mole vol.= 0.0000 cc mole wt.= 158.5254 g 2 species in reaction 1.000 Sr++ 2.000 Cl- * log10 K(298 K) = 8.1200 a= 8.120009953 b= 0 c= 0 d= 2936.05 e= 0 f= 0 SrCl2:2H2O(s) type= formula= SrCl2:2H2O mole vol.= 0.0000 cc mole wt.= 194.5550 g 3 species in reaction 1.000 Sr++ 2.000 Cl- 2.000 H2O * log10 K(298 K) = 3.4700 a= 3.469999518 b= 0 c= 0 d= 977.812 e= 0 f= 0 SrCl2:6H2O(s) type= formula= SrCl2:6H2O mole vol.= 0.0000 cc mole wt.= 266.6142 g 3 species in reaction 1.000 Sr++ 2.000 Cl- 6.000 H2O * log10 K(298 K) = 1.6100 a= 1.610000823 b= 0 c= 0 d= -1241.07 e= 0 f= 0 SrCl2:H2O(s) type= formula= SrCl2:H2O mole vol.= 0.0000 cc mole wt.= 176.5402 g 3 species in reaction 1.000 Sr++ 2.000 Cl- 1.000 H2O * log10 K(298 K) = 4.9100 a= 4.909995824 b= 0 c= 0 d= 1780.64 e= 0 f= 0 SrCrO4(s) type= formula= SrCrO4 mole vol.= 0.0000 cc mole wt.= 203.6121 g 2 species in reaction 1.000 Sr++ 1.000 CrO4-- * log10 K(298 K) = -4.6500 a= -4.649998098 b= 0 c= 0 d= 528.865 e= 0 f= 0 SrF2(cr) type= formula= SrF2 mole vol.= 0.0000 cc mole wt.= 125.6168 g 2 species in reaction 1.000 Sr++ 2.000 F- * log10 K(298 K) = -8.5400 a= -8.54 b= 0 c= 0 d= 0 e= 0 f= 0 SrMoO4(s) type= formula= SrMoO4 mole vol.= 0.0000 cc mole wt.= 247.5560 g 2 species in reaction 1.000 Sr++ 1.000 MoO4-- * log10 K(298 K) = -6.5900 a= -6.59 b= 0 c= 0 d= 0 e= 0 f= 0 SrO(cr) type= formula= SrO mole vol.= 0.0000 cc mole wt.= 103.6190 g 3 species in reaction 1.000 Sr++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 41.9799 a= 41.97989905 b= 0 c= 0 d= 12781 e= 0 f= 0 SrS(s) type= formula= SrS mole vol.= 0.0000 cc mole wt.= 119.6860 g 3 species in reaction 1.000 Sr++ -1.000 H+ 1.000 HS- * log10 K(298 K) = 14.6800 a= 14.67998178 b= 0 c= 0 d= 4887.49 e= 0 f= 0 SrSiO3(s) type= formula= SrSiO3 mole vol.= 0.0000 cc mole wt.= 163.7025 g 4 species in reaction 1.000 Sr++ -2.000 H+ 1.000 H4(SiO4) -1.000 H2O * log10 K(298 K) = 13.1600 a= 13.16001425 b= 0 c= 0 d= 4193.21 e= 0 f= 0 SrZrSi2O7(cr) type= formula= SrZrSi2O7 mole vol.= 0.0000 cc mole wt.= 347.0040 g 5 species in reaction 1.000 Sr++ -6.000 H+ 2.000 H4(SiO4) 1.000 Zr++++ -1.000 H2O * log10 K(298 K) = 5.2000 a= 5.199958494 b= 0 c= 0 d= 8104.45 e= 0 f= 0 Stellerite type= formula= Ca2Al4Si14O36:14H2O mole vol.= 666.5000 cc mole wt.= 1409.4502 g 5 species in reaction 2.000 Ca++ 4.000 Al+++ -16.000 H+ 14.000 H4(SiO4) -6.000 H2O * log10 K(298 K) = 6.9199 a= 6.919917676 b= 0 c= 0 d= 16980.9 e= 0 f= 0 Stibnite type= formula= Sb2S3 mole vol.= 0.0000 cc mole wt.= 339.7180 g 4 species in reaction 3.000 H+ 3.000 HS- 2.000 Sb(OH)3 -6.000 H2O * log10 K(298 K) = -56.0301 a= -56.03007492 b= 0 c= 0 d= -14087.1 e= 0 f= 0 Stilbite type= formula= NaCa2(Al5Si13)O36:16H2O mole vol.= 664.7000 cc mole wt.= 1467.3656 g 5 species in reaction 2.000 Ca++ 1.000 Na+ 5.000 Al+++ -20.000 H+ 13.000 H4(SiO4) * log10 K(298 K) = 22.9699 a= 22.96993689 b= 0 c= 0 d= 22677.3 e= 0 f= 0 Stilleite type= formula= ZnSe mole vol.= 0.0000 cc mole wt.= 144.3500 g 3 species in reaction 1.000 Zn++ -1.000 H+ 1.000 HSe- * log10 K(298 K) = -12.0500 a= -12.05000245 b= 0 c= 0 d= -1927.94 e= 0 f= 0 Stratlingite type= formula= Ca2Al2SiO3(OH)8:4H2O mole vol.= 215.6300 cc mole wt.= 418.3159 g 5 species in reaction 2.000 Ca++ 2.000 Al+++ -10.000 H+ 1.000 H4(SiO4) 11.000 H2O * log10 K(298 K) = 49.6600 a= 49.65999182 b= 0 c= 0 d= 20786.3 e= 0 f= 0 Strontianite type= formula= Sr(CO3) mole vol.= 0.0000 cc mole wt.= 147.6280 g 2 species in reaction 1.000 Sr++ 1.000 CO3-- * log10 K(298 K) = -9.2700 a= -9.269999591 b= 0 c= 0 d= 19.1175 e= 0 f= 0 Sudoite type= formula= Mg2Al4Si3O10(OH)8 mole vol.= 205.1000 cc mole wt.= 536.8377 g 5 species in reaction 2.000 Mg++ 4.000 Al+++ -16.000 H+ 3.000 H4(SiO4) 6.000 H2O * log10 K(298 K) = 37.9301 a= 37.93011734 b= 0 c= 0 d= 27730.4 e= 0 f= 0 Sylvite type= formula= KCl mole vol.= 0.0000 cc mole wt.= 74.5510 g 2 species in reaction 1.000 K+ 1.000 Cl- * log10 K(298 K) = 0.8700 a= 0.8700037196 b= 0 c= 0 d= -911.998 e= 0 f= 0 Syngenite type= formula= K2Ca(SO4)2:6H2O mole vol.= 0.0000 cc mole wt.= 418.4874 g 4 species in reaction 1.000 Ca++ 2.000 K+ 2.000 SO4-- 6.000 H2O * log10 K(298 K) = -7.4500 a= -7.45 b= 0 c= 0 d= 0 e= 0 f= 0 Tachyhydrite type= formula= Mg2CaCl6:12H2O mole vol.= 0.0000 cc mole wt.= 517.5818 g 4 species in reaction 1.000 Ca++ 2.000 Mg++ 6.000 Cl- 12.000 H2O * log10 K(298 K) = 17.3800 a= 17.38 b= 0 c= 0 d= 0 e= 0 f= 0 Talc type= formula= Mg3Si4O10(OH)2 mole vol.= 136.2000 cc mole wt.= 379.2608 g 4 species in reaction 3.000 Mg++ -6.000 H+ 4.000 H4(SiO4) -4.000 H2O * log10 K(298 K) = 24.9199 a= 24.91989098 b= 0 c= 0 d= 10987.6 e= 0 f= 0 Tc(cr) type= formula= Tc mole vol.= 0.0000 cc mole wt.= 98.0000 g 4 species in reaction 1.000 TcO(OH)2 4.000 H+ 4.000 e- -3.000 H2O * log10 K(298 K) = -25.0800 a= -25.07999527 b= 0 c= 0 d= -5653.34 e= 0 f= 0 Tc2O7(s) type= formula= Tc2O7 mole vol.= 0.0000 cc mole wt.= 307.9930 g 3 species in reaction 2.000 H+ 2.000 TcO4- -1.000 H2O * log10 K(298 K) = 15.3100 a= 15.30999055 b= 0 c= 0 d= 2427.29 e= 0 f= 0 Tc2O7:H2O(s) type= formula= Tc2O7:H2O mole vol.= 0.0000 cc mole wt.= 326.0078 g 2 species in reaction 2.000 H+ 2.000 TcO4- * log10 K(298 K) = 14.1100 a= 14.11001209 b= 0 c= 0 d= 2332.44 e= 0 f= 0 TcO2(cr) type= formula= TcO2 mole vol.= 0.0000 cc mole wt.= 129.9980 g 2 species in reaction 1.000 TcO(OH)2 -1.000 H2O * log10 K(298 K) = -9.1400 a= -9.140019789 b= 0 c= 0 d= 293.97 e= 0 f= 0 TcO2:1.63H2O(s) type= formula= TcO2:1.63H2O mole vol.= 0.0000 cc mole wt.= 159.3621 g 2 species in reaction 1.000 TcO(OH)2 .630 H2O * log10 K(298 K) = -8.4000 a= -8.4 b= 0 c= 0 d= 0 e= 0 f= 0 Th(HPO4)2(s) type= formula= Th(HPO4)2 mole vol.= 0.0000 cc mole wt.= 423.9935 g 3 species in reaction 1.000 Th++++ -2.000 H+ 2.000 H2(PO4)- * log10 K(298 K) = -16.1100 a= -16.11 b= 0 c= 0 d= 0 e= 0 f= 0 Th(SO4)2:9H2O(cr) type= formula= Th(SO4)2:9H2O mole vol.= 0.0000 cc mole wt.= 586.2953 g 3 species in reaction 1.000 Th++++ 2.000 SO4-- 9.000 H2O * log10 K(298 K) = -11.2500 a= -11.25 b= 0 c= 0 d= 0 e= 0 f= 0 Th(cr) type= formula= Th mole vol.= 0.0000 cc mole wt.= 232.0381 g 2 species in reaction 1.000 Th++++ 4.000 e- * log10 K(298 K) = 123.4698 a= 123.4698325 b= 0 c= 0 d= 40151.9 e= 0 f= 0 ThF4(cr) type= formula= ThF4 mole vol.= 0.0000 cc mole wt.= 308.0317 g 2 species in reaction 1.000 Th++++ 4.000 F- * log10 K(298 K) = -19.1100 a= -19.11 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(aged) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0361 g 3 species in reaction 1.000 Th++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 8.5000 a= 8.5 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(coll) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0361 g 3 species in reaction 1.000 Th++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 11.1000 a= 11.1 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(cr) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0361 g 3 species in reaction 1.000 Th++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 1.7700 a= 1.770016988 b= 0 c= 0 d= 5952.54 e= 0 f= 0 ThO2(fresh) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0361 g 3 species in reaction 1.000 Th++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 9.3000 a= 9.3 b= 0 c= 0 d= 0 e= 0 f= 0 ThO2(mcr) type= formula= ThO2 mole vol.= 0.0000 cc mole wt.= 264.0361 g 3 species in reaction 1.000 Th++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 3.0000 a= 3 b= 0 c= 0 d= 0 e= 0 f= 0 Thermonatrite type= formula= Na2(CO3):H2O mole vol.= 0.0000 cc mole wt.= 124.0024 g 3 species in reaction 2.000 Na+ 1.000 CO3-- 1.000 H2O * log10 K(298 K) = 0.4800 a= 0.4800041036 b= 0 c= 0 d= 628.892 e= 0 f= 0 Thernardite type= formula= Na2SO4 mole vol.= 0.0000 cc mole wt.= 142.0416 g 2 species in reaction 2.000 Na+ 1.000 SO4-- * log10 K(298 K) = -0.3600 a= -0.3599995554 b= 0 c= 0 d= 114.914 e= 0 f= 0 Tobermorite-11A type= formula= Ca5Si6O16.5(OH):5H2O mole vol.= 286.1900 cc mole wt.= 739.9674 g 4 species in reaction 5.000 Ca++ -10.000 H+ 6.000 H4(SiO4) -1.500 H2O * log10 K(298 K) = 65.5798 a= 65.57983437 b= 0 c= 0 d= 19456.9 e= 0 f= 0 Tobermorite-14A type= formula= Ca5Si6O16.5(OH):10H2O mole vol.= 351.3000 cc mole wt.= 830.0414 g 4 species in reaction 5.000 Ca++ -10.000 H+ 6.000 H4(SiO4) 3.500 H2O * log10 K(298 K) = 62.9400 a= 62.9400343 b= 0 c= 0 d= 16057.6 e= 0 f= 0 Trevorite type= formula= Fe2NiO4 mole vol.= 0.0000 cc mole wt.= 234.3800 g 4 species in reaction 2.000 Fe+++ 1.000 Ni++ -8.000 H+ 4.000 H2O * log10 K(298 K) = 9.4500 a= 9.4499783 b= 0 c= 0 d= 11238.4 e= 0 f= 0 Troilite type= formula= FeS mole vol.= 0.0000 cc mole wt.= 87.9130 g 3 species in reaction 1.000 Fe++ -1.000 H+ 1.000 HS- * log10 K(298 K) = -5.3100 a= -5.310002401 b= 0 c= 0 d= -105.355 e= 0 f= 0 Trona type= formula= Na3H(CO3)2:2H2O mole vol.= 0.0000 cc mole wt.= 226.0229 g 4 species in reaction 3.000 Na+ 1.000 H+ 2.000 CO3-- 2.000 H2O * log10 K(298 K) = -11.3800 a= -11.38000052 b= 0 c= 0 d= -2035.02 e= 0 f= 0 Truscottite type= formula= Ca7Si12O29(OH)4:H2O mole vol.= 478.7300 cc mole wt.= 1167.5854 g 4 species in reaction 7.000 Ca++ -14.000 H+ 12.000 H4(SiO4) -14.000 H2O * log10 K(298 K) = 77.0801 a= 77.08009427 b= 0 c= 0 d= 25024.5 e= 0 f= 0 U(HPO4)2:4H2O(s) type= formula= U(HPO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 502.0435 g 4 species in reaction 1.000 U++++ -2.000 H+ 2.000 H2(PO4)- 4.000 H2O * log10 K(298 K) = -16.0700 a= -16.07001041 b= 0 c= 0 d= 255.422 e= 0 f= 0 U(OH)2(SO4)(cr) type= formula= U(OH)2(SO4) mole vol.= 0.0000 cc mole wt.= 368.1047 g 4 species in reaction 1.000 U++++ -2.000 H+ 1.000 SO4-- 2.000 H2O * log10 K(298 K) = -3.1700 a= -3.17 b= 0 c= 0 d= 0 e= 0 f= 0 U(SO4)2(cr) type= formula= U(SO4)2 mole vol.= 0.0000 cc mole wt.= 430.1529 g 2 species in reaction 1.000 U++++ 2.000 SO4-- * log10 K(298 K) = -11.6800 a= -11.680029 b= 0 c= 0 d= 5237.98 e= 0 f= 0 U(SO4)2:4H2O(cr) type= formula= U(SO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 502.2121 g 3 species in reaction 1.000 U++++ 2.000 SO4-- 4.000 H2O * log10 K(298 K) = -11.7100 a= -11.71004201 b= 0 c= 0 d= 3656.35 e= 0 f= 0 U(SO4)2:8H2O(cr) type= formula= U(SO4)2:8H2O mole vol.= 0.0000 cc mole wt.= 574.2713 g 3 species in reaction 1.000 U++++ 2.000 SO4-- 8.000 H2O * log10 K(298 K) = -12.7700 a= -12.76998784 b= 0 c= 0 d= 1771.76 e= 0 f= 0 U(cr) type= formula= U mole vol.= 0.0000 cc mole wt.= 238.0289 g 2 species in reaction 1.000 U++++ 4.000 e- * log10 K(298 K) = 92.8301 a= 92.83010451 b= 0 c= 0 d= 30880.5 e= 0 f= 0 U2O7Ba(cr) type= formula= U2O7Ba mole vol.= 0.0000 cc mole wt.= 725.3778 g 4 species in reaction 1.000 Ba++ 2.000 UO2++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 21.3900 a= 21.39003896 b= 0 c= 0 d= 10085.8 e= 0 f= 0 U2O7Ba2(cr) type= formula= U2O7Ba2 mole vol.= 0.0000 cc mole wt.= 862.7048 g 4 species in reaction 2.000 Ba++ 2.000 UO2+ -6.000 H+ 3.000 H2O * log10 K(298 K) = 35.3499 a= 35.34992795 b= 0 c= 0 d= 12397.3 e= 0 f= 0 U2O7Na2(s) type= formula= U2O7Na2 mole vol.= 0.0000 cc mole wt.= 634.0304 g 4 species in reaction 2.000 Na+ 2.000 UO2++ -6.000 H+ 3.000 H2O * log10 K(298 K) = 22.6000 a= 22.60000697 b= 0 c= 0 d= 9003.5 e= 0 f= 0 U3As4(s) type= formula= U3As4 mole vol.= 0.0000 cc mole wt.= 1013.7731 g 5 species in reaction 3.000 UO2++ 44.000 H+ 38.000 e- 4.000 AsO4--- -22.000 H2O * log10 K(298 K) = -86.0900 a= -86.08996926 b= 0 c= 0 d= -20825.5 e= 0 f= 0 UAs(s) type= formula= UAs mole vol.= 0.0000 cc mole wt.= 312.9505 g 5 species in reaction 1.000 UO2++ 12.000 H+ 11.000 e- 1.000 AsO4--- -6.000 H2O * log10 K(298 K) = -10.4600 a= -10.45999265 b= 0 c= 0 d= -2201.12 e= 0 f= 0 UAs2(s) type= formula= UAs2 mole vol.= 0.0000 cc mole wt.= 387.8721 g 5 species in reaction 1.000 UO2++ 20.000 H+ 16.000 e- 2.000 AsO4--- -10.000 H2O * log10 K(298 K) = -65.6799 a= -65.67989883 b= 0 c= 0 d= -16454.6 e= 0 f= 0 UO2(CO3)3Mg2:18H2O(s) type= formula= UO2(CO3)3Mg2:18H2O mole vol.= 0.0000 cc mole wt.= 822.9273 g 4 species in reaction 2.000 Mg++ 1.000 UO2++ 3.000 CO3-- 18.000 H2O * log10 K(298 K) = -29.0101 a= -29.01006331 b= 0 c= 0 d= -2119.12 e= 0 f= 0 UO2(CO3)3Na4(cr) type= formula= UO2(CO3)3Na4 mole vol.= 0.0000 cc mole wt.= 542.0101 g 3 species in reaction 4.000 Na+ 1.000 UO2++ 3.000 CO3-- * log10 K(298 K) = -27.1800 a= -27.18 b= 0 c= 0 d= 0 e= 0 f= 0 UO2(HPO4):4H2O(cr) type= formula= UO2(HPO4):4H2O mole vol.= 0.0000 cc mole wt.= 438.0638 g 4 species in reaction 1.000 UO2++ -1.000 H+ 1.000 H2(PO4)- 4.000 H2O * log10 K(298 K) = -4.6400 a= -4.640000283 b= 0 c= 0 d= -263.675 e= 0 f= 0 UO2(OH)2(beta) type= formula= UO2(OH)2 mole vol.= 0.0000 cc mole wt.= 304.0407 g 3 species in reaction 1.000 UO2++ -2.000 H+ 2.000 H2O * log10 K(298 K) = 4.9300 a= 4.929998811 b= 0 c= 0 d= 2970 e= 0 f= 0 UO2(Ox):3H2O(s) type= formula= UO2(COO)2:3H2O mole vol.= 0.0000 cc mole wt.= 412.0893 g 3 species in reaction 1.000 UO2++ 1.000 Ox-- 3.000 H2O * log10 K(298 K) = -8.9300 a= -8.92999872 b= 0 c= 0 d= 269.525 e= 0 f= 0 UO2(SO3)(cr) type= formula= UO2(SO3) mole vol.= 0.0000 cc mole wt.= 350.0899 g 2 species in reaction 1.000 UO2++ 1.000 SO3-- * log10 K(298 K) = -16.0500 a= -16.05000238 b= 0 c= 0 d= -571.435 e= 0 f= 0 UO2(SO4)(cr) type= formula= UO2(SO4) mole vol.= 0.0000 cc mole wt.= 366.0889 g 2 species in reaction 1.000 UO2++ 1.000 SO4-- * log10 K(298 K) = 1.8900 a= 1.889985242 b= 0 c= 0 d= 4345.83 e= 0 f= 0 UO2(SO4):2.5H2O(cr) type= formula= UO2(SO4):2.5H2O mole vol.= 0.0000 cc mole wt.= 411.1259 g 3 species in reaction 1.000 UO2++ 1.000 SO4-- 2.500 H2O * log10 K(298 K) = -1.5900 a= -1.589995789 b= 0 c= 0 d= 1875.97 e= 0 f= 0 UO2(SO4):3.5H2O(cr) type= formula= UO2(SO4):3.5H2O mole vol.= 0.0000 cc mole wt.= 429.1407 g 3 species in reaction 1.000 UO2++ 1.000 SO4-- 3.500 H2O * log10 K(298 K) = -1.5900 a= -1.589997178 b= 0 c= 0 d= 1417.88 e= 0 f= 0 UO2(SO4):3H2O(cr) type= formula= UO2(SO4):3H2O mole vol.= 0.0000 cc mole wt.= 420.1333 g 3 species in reaction 1.000 UO2++ 1.000 SO4-- 3.000 H2O * log10 K(298 K) = -1.5000 a= -1.49999481 b= 0 c= 0 d= 1793.18 e= 0 f= 0 UO2.25(s) type= formula= UO2.25 mole vol.= 0.0000 cc mole wt.= 274.0267 g 4 species in reaction 1.000 U++++ -4.500 H+ -.500 e- 2.250 H2O * log10 K(298 K) = -1.0000 a= -1.000005752 b= 0 c= 0 d= 5553.37 e= 0 f= 0 UO2.34(beta) type= formula= UO2.34 mole vol.= 0.0000 cc mole wt.= 275.4666 g 4 species in reaction 1.000 U++++ -4.680 H+ -.680 e- 2.340 H2O * log10 K(298 K) = 0.9500 a= 0.9500406507 b= 0 c= 0 d= 6217.99 e= 0 f= 0 UO2.67(s) type= formula= UO2.67 mole vol.= 0.0000 cc mole wt.= 280.7462 g 4 species in reaction 1.000 U++++ -5.340 H+ -1.340 e- 2.670 H2O * log10 K(298 K) = 7.0000 a= 7.000044625 b= 0 c= 0 d= 8501.85 e= 0 f= 0 UO2:2H2O(am) type= formula= UO2:2H2O mole vol.= 0.0000 cc mole wt.= 306.0565 g 3 species in reaction 1.000 U++++ -4.000 H+ 4.000 H2O * log10 K(298 K) = 1.5000 a= 1.5 b= 0 c= 0 d= 0 e= 0 f= 0 UO3(alfa) type= formula= UO3 mole vol.= 0.0000 cc mole wt.= 286.0259 g 3 species in reaction 1.000 UO2++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 9.5200 a= 9.520009557 b= 0 c= 0 d= 4827.43 e= 0 f= 0 UO3(beta) type= formula= UO3 mole vol.= 0.0000 cc mole wt.= 286.0259 g 3 species in reaction 1.000 UO2++ -2.000 H+ 1.000 H2O * log10 K(298 K) = 8.3000 a= 8.299988764 b= 0 c= 0 d= 4415.3 e= 0 f= 0 UO3Na(s) type= formula= UO3Na mole vol.= 0.0000 cc mole wt.= 309.0157 g 4 species in reaction 1.000 Na+ 1.000 UO2+ -2.000 H+ 1.000 H2O * log10 K(298 K) = 8.3400 a= 8.340008694 b= 0 c= 0 d= 2945.82 e= 0 f= 0 UO4Ba(s) type= formula= UO4Ba mole vol.= 0.0000 cc mole wt.= 439.3519 g 4 species in reaction 1.000 Ba++ 1.000 UO2++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 17.6400 a= 17.6399958 b= 0 c= 0 d= 6877.07 e= 0 f= 0 UO4Ca(cr) type= formula= UO4Ca mole vol.= 0.0000 cc mole wt.= 342.1029 g 4 species in reaction 1.000 Ca++ 1.000 UO2++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 15.9300 a= 15.92999836 b= 0 c= 0 d= 6861.4 e= 0 f= 0 UO4Li2(s) type= formula= UO4Li2 mole vol.= 0.0000 cc mole wt.= 315.9069 g 4 species in reaction 1.000 UO2++ -4.000 H+ 2.000 H2O 2.000 Li+ * log10 K(298 K) = 27.9400 a= 27.9400018 b= 0 c= 0 d= 9370.7 e= 0 f= 0 UO4Mg(cr) type= formula= UO4Mg mole vol.= 0.0000 cc mole wt.= 326.3299 g 4 species in reaction 1.000 Mg++ 1.000 UO2++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 23.2300 a= 23.229959 b= 0 c= 0 d= 10465.5 e= 0 f= 0 UO4Na2(alfa) type= formula= UO4Na2 mole vol.= 0.0000 cc mole wt.= 348.0045 g 4 species in reaction 2.000 Na+ 1.000 UO2++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 30.0300 a= 30.03001442 b= 0 c= 0 d= 9069.84 e= 0 f= 0 UO4Na3(cr) type= formula= UO4Na3 mole vol.= 0.0000 cc mole wt.= 370.9943 g 4 species in reaction 3.000 Na+ 1.000 UO2+ -4.000 H+ 2.000 H2O * log10 K(298 K) = 56.2800 a= 56.28004862 b= 0 c= 0 d= 15346.6 e= 0 f= 0 UO4Sr(alfa) type= formula= UO4Sr mole vol.= 0.0000 cc mole wt.= 389.6449 g 4 species in reaction 1.000 Sr++ 1.000 UO2++ -4.000 H+ 2.000 H2O * log10 K(298 K) = 19.1600 a= 19.15999359 b= 0 c= 0 d= 7937.41 e= 0 f= 0 UO6Ba3(cr) type= formula= UO6Ba3 mole vol.= 0.0000 cc mole wt.= 746.0039 g 4 species in reaction 3.000 Ba++ 1.000 UO2++ -8.000 H+ 4.000 H2O * log10 K(298 K) = 92.7001 a= 92.70008197 b= 0 c= 0 d= 29058.6 e= 0 f= 0 US2(cr) type= formula= US2 mole vol.= 0.0000 cc mole wt.= 302.1609 g 3 species in reaction 1.000 U++++ -2.000 H+ 2.000 HS- * log10 K(298 K) = -2.4300 a= -2.430024937 b= 0 c= 0 d= 5400.95 e= 0 f= 0 USe2(beta) type= formula= USe2 mole vol.= 0.0000 cc mole wt.= 395.9489 g 3 species in reaction 1.000 U++++ -2.000 H+ 2.000 HSe- * log10 K(298 K) = 2.8200 a= 2.819962385 b= 0 c= 0 d= 7082.87 e= 0 f= 0 Uraninite type= formula= UO2 mole vol.= 0.0000 cc mole wt.= 270.0269 g 3 species in reaction 1.000 U++++ -4.000 H+ 2.000 H2O * log10 K(298 K) = -4.8500 a= -4.850017022 b= 0 c= 0 d= 4066.91 e= 0 f= 0 Uranophane type= formula= Ca(UO2)2(SiO3OH)2:5H2O mole vol.= 0.0000 cc mole wt.= 856.3846 g 5 species in reaction 1.000 Ca++ 2.000 UO2++ -6.000 H+ 2.000 H4(SiO4) 5.000 H2O * log10 K(298 K) = 9.4200 a= 9.42 b= 0 c= 0 d= 0 e= 0 f= 0 Vaesite type= formula= NiS2 mole vol.= 0.0000 cc mole wt.= 122.8220 g 4 species in reaction 1.000 Ni++ -2.000 H+ -2.000 e- 2.000 HS- * log10 K(298 K) = -17.9700 a= -17.96996661 b= 0 c= 0 d= -2109.61 e= 0 f= 0 Valentinite type= formula= Sb2O3 mole vol.= 0.0000 cc mole wt.= 291.5170 g 2 species in reaction 2.000 Sb(OH)3 -3.000 H2O * log10 K(298 K) = -8.4800 a= -8.480001761 b= 0 c= 0 d= -964.963 e= 0 f= 0 Vaterite type= formula= CaCO3 mole vol.= 0.0000 cc mole wt.= 100.0860 g 2 species in reaction 1.000 Ca++ 1.000 CO3-- * log10 K(298 K) = -7.9000 a= -7.899980345 b= 0 c= 0 d= 779.847 e= 0 f= 0 Vermiculite-Ca type= formula= Ca0.43Mg3Si3.14Al0.86O10(OH)2 mole vol.= 149.8000 cc mole wt.= 395.5449 g 6 species in reaction .430 Ca++ 3.000 Mg++ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) -.560 H2O * log10 K(298 K) = 39.5502 a= 39.5501749 b= 0 c= 0 d= 19720.2 e= 0 f= 0 Vermiculite-K type= formula= K0.86Mg3.00Si3.14Al0.86O10(OH)2 mole vol.= 147.5600 cc mole wt.= 411.9359 g 6 species in reaction 3.000 Mg++ .860 K+ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) -.560 H2O * log10 K(298 K) = 37.4400 a= 37.44003364 b= 0 c= 0 d= 17526.4 e= 0 f= 0 Vermiculite-Mg type= formula= Mg0.43Mg3Si3.14Al0.86O10(OH)2 mole vol.= 139.6900 cc mole wt.= 388.7625 g 5 species in reaction 3.430 Mg++ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) -.560 H2O * log10 K(298 K) = 38.0399 a= 38.03992584 b= 0 c= 0 d= 19838.7 e= 0 f= 0 Vermiculite-Na type= formula= Na0.86Mg3.00Si3.14Al0.86O10(OH)2 mole vol.= 145.7100 cc mole wt.= 398.0826 g 6 species in reaction 3.000 Mg++ .860 Na+ .860 Al+++ -9.440 H+ 3.140 H4(SiO4) -.560 H2O * log10 K(298 K) = 38.3901 a= 38.39011001 b= 0 c= 0 d= 18571.2 e= 0 f= 0 Vermiculite_SO type= formula= (Ca0.445)(Si2.778Al1.222)(Al0.216Fe0.226Fe0.028Mg2.475)O10(OH)2 mole vol.= 148.3600 cc mole wt.= 402.9994 g 8 species in reaction .445 Ca++ 2.475 Mg++ .226 Fe+++ .028 Fe++ 1.438 Al+++ -10.888 H+ 2.778 H4(SiO4) .888 H2O * log10 K(298 K) = 45.8899 a= 45.88988281 b= 0 c= 0 d= 24229.9 e= 0 f= 0 Vivianite type= formula= Fe3(PO4)2:8H2O mole vol.= 0.0000 cc mole wt.= 501.5990 g 4 species in reaction 3.000 Fe++ -4.000 H+ 2.000 H2(PO4)- 8.000 H2O * log10 K(298 K) = 3.1200 a= 3.120002578 b= 0 c= 0 d= 499.405 e= 0 f= 0 Wairakite type= formula= CaAl2Si4O12:2H2O mole vol.= 193.5600 cc mole wt.= 434.4006 g 5 species in reaction 1.000 Ca++ 2.000 Al+++ -8.000 H+ 4.000 H4(SiO4) -2.000 H2O * log10 K(298 K) = 14.4199 a= 14.41989916 b= 0 c= 0 d= 12860.7 e= 0 f= 0 Witherite type= formula= Ba(CO3) mole vol.= 0.0000 cc mole wt.= 197.3350 g 2 species in reaction 1.000 Ba++ 1.000 CO3-- * log10 K(298 K) = -8.5600 a= -8.560000651 b= 0 c= 0 d= -153.619 e= 0 f= 0 Xonotlite type= formula= Ca6Si6O17(OH)2 mole vol.= 256.9000 cc mole wt.= 714.9778 g 4 species in reaction 6.000 Ca++ -12.000 H+ 6.000 H4(SiO4) -5.000 H2O * log10 K(298 K) = 91.3401 a= 91.34013263 b= 0 c= 0 d= 29975 e= 0 f= 0 Zeolite_CaP type= formula= Ca2Al4Si4O16:9H2O mole vol.= 305.7000 cc mole wt.= 718.5412 g 5 species in reaction 2.000 Ca++ 4.000 Al+++ -16.000 H+ 4.000 H4(SiO4) 9.000 H2O * log10 K(298 K) = 45.1499 a= 45.14994003 b= 0 c= 0 d= 27565.5 e= 0 f= 0 Zn(SeO4):6H2O(s) type= formula= Zn(SeO4):6H2O mole vol.= 0.0000 cc mole wt.= 316.4348 g 3 species in reaction 1.000 Zn++ 1.000 SeO4-- 6.000 H2O * log10 K(298 K) = -1.5400 a= -1.539998915 b= 0 c= 0 d= 696.273 e= 0 f= 0 Zn(cr) type= formula= Zn mole vol.= 0.0000 cc mole wt.= 65.3900 g 2 species in reaction 1.000 Zn++ 2.000 e- * log10 K(298 K) = 25.7900 a= 25.79000862 b= 0 c= 0 d= 8012.11 e= 0 f= 0 Zn3(AsO4)2(s) type= formula= Zn3(AsO4)2 mole vol.= 0.0000 cc mole wt.= 474.0052 g 2 species in reaction 3.000 Zn++ 2.000 AsO4--- * log10 K(298 K) = -27.4500 a= -27.45 b= 0 c= 0 d= 0 e= 0 f= 0 ZnB2O4(s) type= formula= ZnB2O4 mole vol.= 0.0000 cc mole wt.= 151.0080 g 3 species in reaction 1.000 Zn++ 2.000 B(OH)4- -4.000 H2O * log10 K(298 K) = -10.1900 a= -10.19 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(HPO4)2(alfa) type= formula= Zr(HPO4)2 mole vol.= 0.0000 cc mole wt.= 283.1754 g 3 species in reaction -2.000 H+ 2.000 H2(PO4)- 1.000 Zr++++ * log10 K(298 K) = -32.2700 a= -32.26998336 b= 0 c= 0 d= 2481.09 e= 0 f= 0 Zr(HPO4)2:H2O(cr) type= formula= Zr(HPO4)2:H2O mole vol.= 0.0000 cc mole wt.= 301.1902 g 4 species in reaction -2.000 H+ 2.000 H2(PO4)- 1.000 Zr++++ 1.000 H2O * log10 K(298 K) = -27.0800 a= -27.08001712 b= 0 c= 0 d= 1746.17 e= 0 f= 0 Zr(OH)4(am,aged) type= formula= Zr(OH)4 mole vol.= 0.0000 cc mole wt.= 159.2476 g 3 species in reaction -4.000 H+ 1.000 Zr++++ 4.000 H2O * log10 K(298 K) = -5.5500 a= -5.55 b= 0 c= 0 d= 0 e= 0 f= 0 Zr(OH)4(am,fresh) type= formula= Zr(OH)4 mole vol.= 0.0000 cc mole wt.= 159.2476 g 3 species in reaction -4.000 H+ 1.000 Zr++++ 4.000 H2O * log10 K(298 K) = -3.2400 a= -3.239978886 b= 0 c= 0 d= 4681.17 e= 0 f= 0 Zr(SO4)2(cr) type= formula= Zr(SO4)2 mole vol.= 0.0000 cc mole wt.= 283.3440 g 2 species in reaction 2.000 SO4-- 1.000 Zr++++ * log10 K(298 K) = 1.2400 a= 1.239969059 b= 0 c= 0 d= 9505.46 e= 0 f= 0 Zr(SO4)2:4H2O(s) type= formula= Zr(SO4)2:4H2O mole vol.= 0.0000 cc mole wt.= 355.4032 g 3 species in reaction 2.000 SO4-- 1.000 Zr++++ 4.000 H2O * log10 K(298 K) = -7.6500 a= -7.649963659 b= 0 c= 0 d= 5202.46 e= 0 f= 0 Zr(cr) type= formula= Zr mole vol.= 0.0000 cc mole wt.= 91.2200 g 2 species in reaction 4.000 e- 1.000 Zr++++ * log10 K(298 K) = 92.5899 a= 92.58989376 b= 0 c= 0 d= 31784.1 e= 0 f= 0 ZrBr4(cr) type= formula= ZrBr4 mole vol.= 0.0000 cc mole wt.= 410.8360 g 2 species in reaction 4.000 Br- 1.000 Zr++++ * log10 K(298 K) = 38.5199 a= 38.51989487 b= 0 c= 0 d= 17479.4 e= 0 f= 0 ZrCl(s) type= formula= ZrCl mole vol.= 0.0000 cc mole wt.= 126.6727 g 3 species in reaction 3.000 e- 1.000 Cl- 1.000 Zr++++ * log10 K(298 K) = 69.2400 a= 69.24003441 b= 0 c= 0 d= 25300.9 e= 0 f= 0 ZrCl2(s) type= formula= ZrCl2 mole vol.= 0.0000 cc mole wt.= 162.1254 g 3 species in reaction 2.000 e- 2.000 Cl- 1.000 Zr++++ * log10 K(298 K) = 51.6499 a= 51.64992266 b= 0 c= 0 d= 20886.1 e= 0 f= 0 ZrCl3(s) type= formula= ZrCl3 mole vol.= 0.0000 cc mole wt.= 197.5781 g 3 species in reaction 1.000 e- 3.000 Cl- 1.000 Zr++++ * log10 K(298 K) = 40.7199 a= 40.71986674 b= 0 c= 0 d= 18262.9 e= 0 f= 0 ZrCl4(s) type= formula= ZrCl4 mole vol.= 0.0000 cc mole wt.= 233.0308 g 2 species in reaction 4.000 Cl- 1.000 Zr++++ * log10 K(298 K) = 28.6001 a= 28.60007292 b= 0 c= 0 d= 15462.2 e= 0 f= 0 ZrF2(s) type= formula= ZrF2 mole vol.= 0.0000 cc mole wt.= 129.2168 g 3 species in reaction 2.000 e- 2.000 F- 1.000 Zr++++ * log10 K(298 K) = 32.6101 a= 32.61007005 b= 0 c= 0 d= 16881.9 e= 0 f= 0 ZrF3(s) type= formula= ZrF3 mole vol.= 0.0000 cc mole wt.= 148.2152 g 3 species in reaction 1.000 e- 3.000 F- 1.000 Zr++++ * log10 K(298 K) = 2.8000 a= 2.80003785 b= 0 c= 0 d= 9483 e= 0 f= 0 ZrF4(beta) type= formula= ZrF4 mole vol.= 0.0000 cc mole wt.= 167.2136 g 2 species in reaction 4.000 F- 1.000 Zr++++ * log10 K(298 K) = -27.2500 a= -27.24996498 b= 0 c= 0 d= 2016.22 e= 0 f= 0 ZrI4(cr) type= formula= ZrI4 mole vol.= 0.0000 cc mole wt.= 598.8380 g 2 species in reaction 4.000 I- 1.000 Zr++++ * log10 K(298 K) = 44.5900 a= 44.58997924 b= 0 c= 0 d= 18110.4 e= 0 f= 0 ZrO2(cr) type= formula= ZrO2 mole vol.= 0.0000 cc mole wt.= 123.2180 g 3 species in reaction -4.000 H+ 1.000 Zr++++ 2.000 H2O * log10 K(298 K) = -7.0000 a= -7.000013902 b= 0 c= 0 d= 4155.7 e= 0 f= 0 ZrSiO4(s) type= formula= ZrSiO4 mole vol.= 0.0000 cc mole wt.= 183.3015 g 3 species in reaction -4.000 H+ 1.000 H4(SiO4) 1.000 Zr++++ * log10 K(298 K) = -14.3600 a= -14.36002061 b= 0 c= 0 d= 1853.98 e= 0 f= 0 illite-FeIII type= formula= K0.85Fe0.25Al2.6Si3.15O10(OH)2 mole vol.= 138.9200 cc mole wt.= 399.8203 g 6 species in reaction .850 K+ .250 Fe+++ 2.600 Al+++ -9.400 H+ 3.150 H4(SiO4) -.600 H2O * log10 K(298 K) = 12.3699 a= 12.36988975 b= 0 c= 0 d= 13699.9 e= 0 f= 0 -end- * Use TEdit to add solid solutions here globally, or add them locally * from the Solid Solutions... dialog in any of the GWB modeling apps. 0 solid solutions -end- 10 gases CH4(g) mole wt.= 16.0426 g chi= -537.779 1.54946 -.000927827 1.20861 -.00370814 3.33804e-6 Pcrit= 45.99 bar Tcrit= 190.56 K omega= .011 4 species in reaction 10.000 H+ 8.000 e- 1.000 CO3-- -3.000 H2O * log10 K(298 K) = -41.0501 a= -41.05009473 b= 0 c= 0 d= -13431 e= 0 f= 0 CO(g) mole wt.= 28.0100 g 4 species in reaction 4.000 H+ 2.000 e- 1.000 CO3-- -2.000 H2O * log10 K(298 K) = -14.6400 a= -14.64003926 b= 0 c= 0 d= -363.546 e= 0 f= 0 CO2(g) mole wt.= 44.0090 g chi= -1430.87 3.598 -.00227376 3.47644 -.0104247 8.46271e-6 Pcrit= 73.74 bar Tcrit= 304.12 K omega= .225 3 species in reaction 2.000 H+ 1.000 CO3-- -1.000 H2O * log10 K(298 K) = -18.1500 a= -18.15004025 b= 0 c= 0 d= -214.68 e= 0 f= 0 Cl2(g) mole wt.= 70.9054 g 2 species in reaction -2.000 e- 2.000 Cl- * log10 K(298 K) = 45.9801 a= 45.98014446 b= 0 c= 0 d= 17454.4 e= 0 f= 0 H2(g) mole wt.= 2.0158 g chi= -12.5908 .259789 -7.2473e-5 .00471947 -2.69962e-5 2.15622e-8 Pcrit= 12.93 bar Tcrit= 32.98 K omega= -.217 2 species in reaction 2.000 H+ 2.000 e- * log10 K(298 K) = 0.0000 a= 0 b= 0 c= 0 d= 0 e= 0 f= 0 H2O(g) mole wt.= 18.0148 g chi= -6191.41 14.8528 -.00914267 -66.3326 .18277 -.00013274 Pcrit= 220.64 bar Tcrit= 647.14 K omega= .344 a=-.0109 b= 0.0 3 species in reaction 2.000 H+ 2.000 e- .500 O2(aq) * log10 K(298 K) = -41.4999 a= -41.49989238 b= 0 c= 0 d= -12314.5 e= 0 f= 0 H2S(g) mole wt.= 34.0818 g Pcrit= 89.63 bar Tcrit= 373.4 K omega= .090 2 species in reaction 1.000 H+ 1.000 HS- * log10 K(298 K) = -8.0000 a= -7.999995507 b= 0 c= 0 d= -224.604 e= 0 f= 0 HCl(g) mole wt.= 36.4606 g 2 species in reaction 1.000 H+ 1.000 Cl- * log10 K(298 K) = 6.2900 a= 6.289991186 b= 0 c= 0 d= 3905.5 e= 0 f= 0 O2(g) mole wt.= 31.9980 g Pcrit= 50.43 bar Tcrit= 154.58 K omega= .025 1 species in reaction 1.000 O2(aq) * log10 K(298 K) = -2.9000 a= -2.899997676 b= 0 c= 0 d= 633.802 e= 0 f= 0 SO2(g) mole wt.= 64.0640 g Pcrit= 78.84 bar Tcrit= 430.8 K omega= .256 3 species in reaction 2.000 H+ 1.000 SO3-- -1.000 H2O * log10 K(298 K) = -8.9400 a= -8.939989334 b= 0 c= 0 d= 2529.15 e= 0 f= 0 -end- 49 oxides Ag2O(ox) mole wt.= 231.7354 g 3 species in reaction -2.000 H+ 2.000 Ag+ 1.000 H2O Al2O3(ox) mole wt.= 101.9600 g 3 species in reaction -6.000 H+ 2.000 Al+++ 3.000 H2O Am2O3(ox) mole wt.= 533.9970 g 3 species in reaction -6.000 H+ 2.000 Am+++ 3.000 H2O As2O5(ox) mole wt.= 229.8382 g 3 species in reaction -3.000 H2O 2.000 AsO4--- 6.000 H+ B2O3(ox) mole wt.= 69.6190 g 3 species in reaction 2.000 B(OH)4- -5.000 H2O 2.000 H+ BaO(ox) mole wt.= 153.3260 g 3 species in reaction -2.000 H+ 1.000 Ba++ 1.000 H2O CaO(ox) mole wt.= 56.0770 g 3 species in reaction -2.000 H+ 1.000 Ca++ 1.000 H2O CdO(ox) mole wt.= 128.4100 g 3 species in reaction 1.000 Cd++ 1.000 H2O -2.000 H+ Cm2O3(ox) mole wt.= 541.9970 g 3 species in reaction 2.000 Cm+++ 3.000 H2O -6.000 H+ CoO(ox) mole wt.= 74.9322 g 3 species in reaction 1.000 Co++ 1.000 H2O -2.000 H+ CrO3(ox) mole wt.= 99.9931 g 3 species in reaction 1.000 CrO4-- -1.000 H2O 2.000 H+ Cs2O(ox) mole wt.= 281.8098 g 3 species in reaction -2.000 H+ 2.000 Cs+ 1.000 H2O CuO(ox) mole wt.= 79.5450 g 3 species in reaction 1.000 H2O -2.000 H+ 1.000 Cu++ Eu2O3(ox) mole wt.= 351.9270 g 3 species in reaction -6.000 H+ 2.000 Eu+++ 3.000 H2O FeO(ox) mole wt.= 71.8460 g 3 species in reaction -2.000 H+ 1.000 Fe++ 1.000 H2O HBr(ox) mole wt.= 80.9119 g 2 species in reaction 1.000 H+ 1.000 Br- HCl(ox) mole wt.= 36.4606 g 2 species in reaction 1.000 H+ 1.000 Cl- HF(ox) mole wt.= 20.0063 g 2 species in reaction 1.000 H+ 1.000 F- HfO2(ox) mole wt.= 210.4880 g 3 species in reaction 1.000 Hf++++ 2.000 H2O -4.000 H+ HI(ox) mole wt.= 127.9124 g 2 species in reaction 1.000 H+ 1.000 I- Ho2O3(ox) mole wt.= 377.8576 g 3 species in reaction 2.000 Ho+++ 3.000 H2O -6.000 H+ K2O(ox) mole wt.= 94.1956 g 3 species in reaction -2.000 H+ 2.000 K+ 1.000 H2O Li2O(ox) mole wt.= 29.8810 g 3 species in reaction -2.000 H+ 2.000 Li+ 1.000 H2O MgO(ox) mole wt.= 40.3040 g 3 species in reaction -2.000 H+ 1.000 Mg++ 1.000 H2O MnO(ox) mole wt.= 70.9370 g 3 species in reaction -2.000 H+ 1.000 Mn++ 1.000 H2O MoO3(ox) mole wt.= 143.9370 g 3 species in reaction 1.000 MoO4-- -1.000 H2O 2.000 H+ Na2O(ox) mole wt.= 61.9786 g 3 species in reaction -2.000 H+ 2.000 Na+ 1.000 H2O Nb2O5(ox) mole wt.= 265.8078 g 3 species in reaction 2.000 Nb(OH)6- -7.000 H2O 2.000 H+ NiO(ox) mole wt.= 74.6890 g 3 species in reaction -2.000 H+ 1.000 Ni++ 1.000 H2O NpO3(ox) mole wt.= 285.0450 g 3 species in reaction 1.000 NpO2++ 1.000 H2O -2.000 H+ P2O5(ox) mole wt.= 141.9426 g 3 species in reaction -3.000 H2O 2.000 H+ 2.000 H2(PO4)- PaO2(ox) mole wt.= 263.0339 g 3 species in reaction 1.000 Pa++++ 2.000 H2O -4.000 H+ PbO(ox) mole wt.= 223.1990 g 3 species in reaction -2.000 H+ 1.000 Pb++ 1.000 H2O PdO(ox) mole wt.= 122.4190 g 3 species in reaction 1.000 Pd++ 1.000 H2O -2.000 H+ PuO3(ox) mole wt.= 291.9970 g 3 species in reaction 1.000 PuO2++ 1.000 H2O -2.000 H+ RaO(ox) mole wt.= 242.0240 g 3 species in reaction -2.000 H+ 1.000 Ra++ 1.000 H2O Rb2O(ox) mole wt.= 186.9346 g 3 species in reaction -2.000 H+ 2.000 Rb+ 1.000 H2O Sb2O3(ox) mole wt.= 291.5170 g 2 species in reaction 2.000 Sb(OH)3 -3.000 H2O SeO3(ox) mole wt.= 126.9570 g 3 species in reaction 1.000 SeO4-- -1.000 H2O 2.000 H+ SiO2(ox) mole wt.= 60.0835 g 2 species in reaction 1.000 H4(SiO4) -2.000 H2O Sm2O3(ox) mole wt.= 348.7170 g 3 species in reaction 2.000 Sm+++ 3.000 H2O -6.000 H+ SnO(ox) mole wt.= 134.7090 g 3 species in reaction 1.000 Sn++ 1.000 H2O -2.000 H+ SO3(ox) mole wt.= 80.0630 g 3 species in reaction -1.000 H2O 1.000 SO4-- 2.000 H+ SrO(ox) mole wt.= 103.6190 g 3 species in reaction -2.000 H+ 1.000 Sr++ 1.000 H2O TcO2(ox) mole wt.= 129.9980 g 2 species in reaction 1.000 TcO(OH)2 -1.000 H2O ThO2(ox) mole wt.= 264.0361 g 3 species in reaction -4.000 H+ 1.000 Th++++ 2.000 H2O UO3(ox) mole wt.= 286.0259 g 3 species in reaction 1.000 UO2++ 1.000 H2O -2.000 H+ ZnO(ox) mole wt.= 81.3890 g 3 species in reaction -2.000 H+ 1.000 Zn++ 1.000 H2O ZrO2(ox) mole wt.= 123.2180 g 3 species in reaction 1.000 Zr++++ 2.000 H2O -4.000 H+ -end- * SIT epsilon coefficients for cation-anion pairs. * * The first value on a data line ("a= ") is the interaction coefficient * value at 25 C. * * The temperature dependence of the epsilon interaction coefficient * may be specified by appending as many as five coefficients b-f * to a data line. The new correlation equation, used in this dataset, is * * epsilon = a + b*(Tk-Tr) + c*(Tk2-Tr2) + d*(1/Tk - 1/Tr) + e*(1/Tk2 - 1/Tr2) * + f*ln(Tk/Tr) * * where Tk is absolute temperature and Tr is 298.15 K. Hence, if c-f are * zero (or omitted), then b is the first temperature derivative. * * The legacy correlation equation described in the Thermo Datasets chapter * of the GWB Reference Manual is also acceptable. * * A temperature range of validity may optionally be set for each species pair, * regardless of the temperature expansion chosen. If no range is set, the span * of the principal temperatures is assumed. * * SIT coefficients in the current dataset do not vary from their 25 C values. * * You can account for the variation of epsilon with ionic strength by * specifying an epsilon2 value in addition to epsilon (or epsilon1). In that * case, epsilon varies with ionic strength according to the relationship: * * epsilon = epsilon1 + epsilon2*log10(IS) * * where IS is the true ionic strength in molal units. The method is not * currently recommended by the NEA and is not used in this dataset. * * A second block of interaction coefficiets is allotted for interaction * coefficients between uncharged species and cations, anions, or other * uncharged species, including self-interaction. * * Such interactions with uncharged species are typically small and are * often ignored. The current dataset includes no interaction coefficients * involving uncharged species. * * Input is parsed word-by-word; therefore, there is no need to align data * by column. (NpO2)2(OH)2++ Cl- epsilon a= -.248 (NpO2)2(OH)2++ ClO4- epsilon a= .57 (NpO2)2CO3(OH)3- Na+ epsilon a= 0.0 (NpO2)3(CO3)6------ Na+ epsilon a= -.46 (NpO2)3(OH)5+ Cl- epsilon a= -.226 (NpO2)3(OH)5+ ClO4- epsilon a= .45 (PuO2)2(OH)2++ Cl- epsilon a= -.248 (PuO2)3(CO3)6------ Na+ epsilon a= -.46 (UO2)2(CO3)(OH)3- Na+ epsilon a= 0.0 (UO2)2(NpO2)(CO3)6------ Na+ epsilon a= .09 (UO2)2(OH)2++ Cl- epsilon a= .69 (UO2)2(OH)2++ ClO4- epsilon a= .57 (UO2)2(OH)2++ NO3- epsilon a= .49 (UO2)3(CO3)6------ Na+ epsilon a= .37 (UO2)3(OH)4++ Cl- epsilon a= .5 (UO2)3(OH)5+ Cl- epsilon a= .81 Ag(SeO3)- Na+ epsilon a= -.024 Ag+ Cl- epsilon a= .031 Al(OH)++ Cl- epsilon a= .09 Al(OH)2+ Cl- epsilon a= .09 Al+++ Cl- epsilon a= .33 Am(CO3)+ Cl- epsilon a= .129 Am(CO3)+ ClO4- epsilon a= .17 Am(CO3)2- Na+ epsilon a= -.14 Am(CO3)3--- Na+ epsilon a= -.23 Am(CO3)5------ Na+ epsilon a= -.3 Am(Edta)- Na+ epsilon a= .01 Am(H2PO4)++ Cl- epsilon a= .191 Am(H2PO4)++ ClO4- epsilon a= .39 Am(NO3)++ Cl- epsilon a= .191 Am(NO3)++ ClO4- epsilon a= .39 Am(OH)++ Cl- epsilon a= -.04 Am(OH)++ ClO4- epsilon a= .39 Am(OH)2+ Cl- epsilon a= -.29 Am(OH)2+ ClO4- epsilon a= .17 Am(Ox)+ ClO4- epsilon a= .08 Am(Ox)2- Na+ epsilon a= -.21 Am(Ox)3--- Na+ epsilon a= -.23 Am(SO4)+ Cl- epsilon a= .157 Am(SO4)+ ClO4- epsilon a= .22 Am(SO4)2- Na+ epsilon a= -.05 Am+++ Cl- epsilon a= .23 Am+++ ClO4- epsilon a= .49 AmCl++ Cl- epsilon a= .191 AmCl++ ClO4- epsilon a= .39 AmCl2+ Cl- epsilon a= .129 AmF++ Cl- epsilon a= .191 AmF++ ClO4- epsilon a= .39 AmF2+ Cl- epsilon a= .129 AmF2+ ClO4- epsilon a= .17 AmO2(CO3)- Na+ epsilon a= -.18 AmO2(CO3)2--- Na+ epsilon a= -.33 AmO2(CO3)3----- Na+ epsilon a= -.53 AmO2+ Cl- epsilon a= .09 AmO2++ Cl- epsilon a= .39 B(OH)4- Na+ epsilon a= -.07 Ba++ Cl- epsilon a= .07 Ba++ ClO4- epsilon a= .15 Ba++ NO3- epsilon a= -.28 Br- Na+ epsilon a= .05 CO3-- Na+ epsilon a= -.08 Ca++ Cl- epsilon a= .14 Ca++ ClO4- epsilon a= .27 Ca++ NO3- epsilon a= .02 Ca4Th(OH)8++++ Cl- epsilon a= -.01 Ca4Th(OH)8++++ ClO4- epsilon a= .21 Cd(HCO3)+ Cl- epsilon a= .2 Cd++ Cl- epsilon a= .16 Cd++ NO3- epsilon a= .09 CdCl+ Cl- epsilon a= .127 CdCl+ ClO4- epsilon a= .25 CdI+ Cl- epsilon a= .136 CdI+ ClO4- epsilon a= .27 Cit--- Na+ epsilon a= -.076 Cl- Na+ epsilon a= .03 Cm(CO3)2- Na+ epsilon a= .34 Cm(CO3)3--- Na+ epsilon a= .16 Cl- Cm(H2PO4)++ epsilon a= .191 ClO4- Cm(H2PO4)++ epsilon a= .39 Cl- Cm(OH)++ epsilon a= -.04 ClO4- Cm(OH)++ epsilon a= .39 Cl- Cm(OH)2+ epsilon a= -.27 ClO4- Cm(OH)2+ epsilon a= .17 Cm(SO4)2- Na+ epsilon a= -.05 Cl- Cm+++ epsilon a= .23 ClO4- Cm+++ epsilon a= .49 Cl- CmCO3+ epsilon a= .35 Cl- CmCl++ epsilon a= .191 ClO4- CmCl++ epsilon a= .39 Cl- CmCl2+ epsilon a= .129 ClO4- CmF++ epsilon a= .39 ClO4- CmF2+ epsilon a= .17 ClO4- CmNO3++ epsilon a= .39 Cl- CmSO4+ epsilon a= .157 ClO4- CmSO4+ epsilon a= .22 Cn- Na+ epsilon a= .07 Cl- Co++ epsilon a= .16 ClO4- Co++ epsilon a= .34 Co++ NO3- epsilon a= .14 Cl- Cr+++ epsilon a= .3 Cr+++ NO3- epsilon a= .27 ClO4- Cu+ epsilon a= .11 Cl- Cu++ epsilon a= .08 ClO4- Cu++ epsilon a= .32 Cu++ NO3- epsilon a= .11 Edta---- Na+ epsilon a= .32 Cl- Eu(CO3)+ epsilon a= .129 ClO4- Eu(CO3)+ epsilon a= .17 Eu(CO3)2- Na+ epsilon a= -.14 Eu(CO3)3--- Na+ epsilon a= -.23 Cl- Eu(H2PO4)++ epsilon a= .191 ClO4- Eu(H2PO4)++ epsilon a= .39 Cl- Eu(NO3)++ epsilon a= .191 ClO4- Eu(NO3)++ epsilon a= .39 Cl- Eu(OH)++ epsilon a= -.04 ClO4- Eu(OH)++ epsilon a= .39 Cl- Eu(OH)2+ epsilon a= -.29 ClO4- Eu(OH)2+ epsilon a= .17 Cl- Eu(SO4)+ epsilon a= .157 ClO4- Eu(SO4)+ epsilon a= .22 Eu(SO4)2- Na+ epsilon a= -.05 Cl- Eu+++ epsilon a= .23 ClO4- Eu+++ epsilon a= .49 Cl- EuCl++ epsilon a= .191 ClO4- EuCl++ epsilon a= .39 Cl- EuCl2+ epsilon a= .129 Cl- EuF++ epsilon a= .191 Cl- EuF2+ epsilon a= .129 F- Na+ epsilon a= .02 Cl- Fe(OH)++ epsilon a= .186 ClO4- Fe+++ epsilon a= .56 Fe+++ NO3- epsilon a= .42 H(Cit)-- Na+ epsilon a= -.04 H(Edta)--- Na+ epsilon a= -.1 H(Ox)- Na+ epsilon a= -.07 H(SO4)- Na+ epsilon a= -.01 H(SeO3)- Na+ epsilon a= .02 H(SeO4)- Na+ epsilon a= 0.0 Cl- H+ epsilon a= .12 ClO4- H+ epsilon a= .14 H+ NO3- epsilon a= .07 H2(Cit)- Na+ epsilon a= -.05 H2(Edta)-- Na+ epsilon a= -.37 H2(PO4)- Na+ epsilon a= -.08 H2(SiO4)-- Na+ epsilon a= -.1 H3(Edta)- Na+ epsilon a= -.33 H3(SiO4)- Na+ epsilon a= -.08 Cl- H5(Edta)+ epsilon a= -.23 ClO4- H5(Edta)+ epsilon a= -.23 H5(Edta)+ NO3- epsilon a= -.23 Cl- H6(Edta)++ epsilon a= -.2 ClO4- H6(Edta)++ epsilon a= -.2 H6(Edta)++ NO3- epsilon a= -.2 HCO3- Na+ epsilon a= 0.0 HGlu- Na+ epsilon a= -.07 HIsa- Na+ epsilon a= -.07 HMoO4- Na+ epsilon a= -.099 HPO4-- Na+ epsilon a= -.15 ClO4- Hf(NO3)2++ epsilon a= .84 ClO4- Hf(OH)+++ epsilon a= .57 Cl- Hf++++ epsilon a= .89 ClO4- Hf++++ epsilon a= .89 Hf++++ NO3- epsilon a= .89 ClO4- HfCl+++ epsilon a= .87 ClO4- HfCl2++ epsilon a= .84 ClO4- HfF+++ epsilon a= .63 ClO4- HfF2++ epsilon a= .47 ClO4- HfNO3+++ epsilon a= .91 Cl- Ho(CO3)+ epsilon a= .129 ClO4- Ho(CO3)+ epsilon a= .17 Ho(CO3)2- Na+ epsilon a= -.14 Ho(CO3)3--- Na+ epsilon a= -.23 Cl- Ho(H2PO4)++ epsilon a= .191 ClO4- Ho(H2PO4)++ epsilon a= .39 Cl- Ho(NO3)++ epsilon a= .191 ClO4- Ho(NO3)++ epsilon a= .39 Cl- Ho(OH)++ epsilon a= -.04 ClO4- Ho(OH)++ epsilon a= .39 Cl- Ho(OH)2+ epsilon a= -.29 ClO4- Ho(OH)2+ epsilon a= .17 Cl- Ho(SO4)+ epsilon a= .157 ClO4- Ho(SO4)+ epsilon a= .22 Ho(SO4)2- Na+ epsilon a= -.05 Cl- Ho+++ epsilon a= .23 ClO4- Ho+++ epsilon a= .49 Cl- HoCl++ epsilon a= .191 ClO4- HoCl++ epsilon a= .39 Cl- HoCl2+ epsilon a= .129 Cl- HoF++ epsilon a= .191 ClO4- HoF++ epsilon a= .39 Cl- HoF2+ epsilon a= .129 ClO4- HoF2+ epsilon a= .17 I- Na+ epsilon a= .08 IO3- Na+ epsilon a= -.06 Cl- K+ epsilon a= 0.0 K+ NO3- epsilon a= -.11 Cl- Li+ epsilon a= .1 ClO4- Li+ epsilon a= .15 Li+ NO3- epsilon a= .08 Mg(Cit)- Na+ epsilon a= .03 Mg(Edta)-- Na+ epsilon a= -.01 Mg(HEdta)- Na+ epsilon a= .11 Mg(Ox)2-- Na+ epsilon a= -.15 Cl- Mg++ epsilon a= .19 ClO4- Mg++ epsilon a= .33 Mg++ NO3- epsilon a= .17 Cl- Mn++ epsilon a= .13 Mo7O21(OH)3--- Na+ epsilon a= -1.455 Mo7O22(OH)2---- Na+ epsilon a= -1.346 Mo7O23(OH)----- Na+ epsilon a= -1.145 Mo7O24------ Na+ epsilon a= -1.265 MoO4-- Na+ epsilon a= .034 Cl- NH4+ epsilon a= -.01 ClO4- NH4+ epsilon a= -.08 NH4+ NO3- epsilon a= -.06 Na+ NO3- epsilon a= -.04 ClO4- Na+ epsilon a= .01 Na+ Ni(CO3)2-- epsilon a= .003 Na+ Ni(Cit)- epsilon a= .22 Na+ Ni(Cn)4-- epsilon a= .185 Na+ Ni(Cn)5--- epsilon a= .25 Cl- Ni(HCO3)+ epsilon a= .085 Cl- Ni(NO3)+ epsilon a= .06 ClO4- Ni(NO3)+ epsilon a= .44 Cl- Ni(OH)+ epsilon a= -.01 ClO4- Ni(OH)+ epsilon a= .14 Na+ Ni(OH)3- epsilon a= .88 Na+ Ni(SO4)2-- epsilon a= -.263 Cl- Ni(Scn)+ epsilon a= .11 ClO4- Ni(Scn)+ epsilon a= .31 Na+ Ni(Scn)3- epsilon a= .66 Cl- Ni++ epsilon a= .17 ClO4- Ni++ epsilon a= .37 Ni++ NO3- epsilon a= .182 ClO4- Ni4(OH)4++++ epsilon a= 1.08 Cl- NiCl+ epsilon a= .1 ClO4- NiCl+ epsilon a= .47 Cl- NiF+ epsilon a= .065 ClO4- NiF+ epsilon a= .34 ClO4- NiHS+ epsilon a= -.85 Na+ Np(CO3)(OH)3- epsilon a= -.11 Cl- Np(CO3)+ epsilon a= .129 ClO4- Np(CO3)+ epsilon a= .17 Na+ Np(CO3)2- epsilon a= -.14 Na+ Np(CO3)3--- epsilon a= -.23 Na+ Np(CO3)4---- epsilon a= -.09 Na+ Np(CO3)5------ epsilon a= 0.0 ClO4- Np(NO3)+++ epsilon a= .71 Cl- Np(OH)++ epsilon a= -.04 ClO4- Np(OH)++ epsilon a= .39 Cl- Np(OH)+++ epsilon a= .2 ClO4- Np(OH)+++ epsilon a= .5 Cl- Np(OH)2+ epsilon a= -.29 ClO4- Np(OH)2+ epsilon a= .17 Cl- Np(OH)2++ epsilon a= .1 Cl- Np(OH)3+ epsilon a= .05 Na+ Np(OH)4(CO3)-- epsilon a= -.13 Cl- Np(SO4)+ epsilon a= .157 ClO4- Np(SO4)+ epsilon a= .22 Cl- Np(SO4)++ epsilon a= .232 ClO4- Np(SO4)++ epsilon a= .48 Na+ Np(SO4)2- epsilon a= -.05 Cl- Np+++ epsilon a= .23 ClO4- Np+++ epsilon a= .49 Cl- Np++++ epsilon a= .4 ClO4- Np++++ epsilon a= .84 ClO4- NpCl+++ epsilon a= .81 ClO4- NpF+++ epsilon a= .58 Cl- NpF2++ epsilon a= .186 ClO4- NpF2++ epsilon a= .38 Cl- NpF3+ epsilon a= .1 ClO4- NpI+++ epsilon a= .77 Na+ NpO2(CO3)- epsilon a= -.18 Na+ NpO2(CO3)2-- epsilon a= -.02 Na+ NpO2(CO3)2--- epsilon a= -.33 Na+ NpO2(CO3)2OH---- epsilon a= -.4 Na+ NpO2(CO3)3---- epsilon a= -.4 Na+ NpO2(CO3)3----- epsilon a= -.53 Na+ NpO2(Cit)-- epsilon a= -.06 Na+ NpO2(Edta)--- epsilon a= .2 Na+ NpO2(HEdta)-- epsilon a= .07 Na+ NpO2(HPO4)2-- epsilon a= -.1 Cl- NpO2(NO3)+ epsilon a= .22 ClO4- NpO2(NO3)+ epsilon a= .33 Cl- NpO2(OH)+ epsilon a= -.003 ClO4- NpO2(OH)+ epsilon a= -.06 Na+ NpO2(OH)2- epsilon a= -.01 Na+ NpO2(Ox)- epsilon a= -.4 Na+ NpO2(Ox)2--- epsilon a= -.3 Na+ NpO2(SO4)- epsilon a= -.74 Na+ NpO2(SO4)2-- epsilon a= -.12 Cl- NpO2+ epsilon a= .09 ClO4- NpO2+ epsilon a= .25 Cl- NpO2++ epsilon a= .223 ClO4- NpO2++ epsilon a= .46 Cl- NpO2Cl+ epsilon a= .318 ClO4- NpO2Cl+ epsilon a= .5 Cl- NpO2F+ epsilon a= .197 ClO4- NpO2F+ epsilon a= .29 Na+ OH- epsilon a= .04 Na+ Ox-- epsilon a= -.08 Na+ PO4--- epsilon a= -.25 Cl- Pa++++ epsilon a= .3 Cl- PaO(OH)++ epsilon a= .13 Na+ Pb(OH)3- epsilon a= .02 Na+ Pb(SO4)2-- epsilon a= -.52 Cl- Pb++ epsilon a= .081 ClO4- Pb++ epsilon a= .15 NO3- Pb++ epsilon a= -.2 Cl- PbF+ epsilon a= .14 Na+ Pd(SO4)2-- epsilon a= -.12 Cl- Pd++ epsilon a= .16 Cl- PdBr+ epsilon a= .175 Na+ PdBr3- epsilon a= 0.0 Na+ PdBr4-- epsilon a= .1 Cl- PdCl+ epsilon a= .175 Na+ PdCl3- epsilon a= 0.0 Na+ PdCl4-- epsilon a= .1 Cl- Pu(CO3)+ epsilon a= .129 ClO4- Pu(CO3)+ epsilon a= .17 Na+ Pu(CO3)2- epsilon a= -.14 Na+ Pu(CO3)3--- epsilon a= -.23 Na+ Pu(CO3)4---- epsilon a= -.09 Na+ Pu(CO3)5------ epsilon a= 0.0 Cl- Pu(NO3)++ epsilon a= .191 ClO4- Pu(NO3)++ epsilon a= .39 ClO4- Pu(NO3)+++ epsilon a= .59 Cl- Pu(OH)++ epsilon a= -.04 ClO4- Pu(OH)++ epsilon a= .39 Cl- Pu(OH)+++ epsilon a= .2 ClO4- Pu(OH)+++ epsilon a= .5 Cl- Pu(OH)2+ epsilon a= -.29 ClO4- Pu(OH)2+ epsilon a= .17 Cl- Pu(OH)2++ epsilon a= .1 Cl- Pu(OH)3+ epsilon a= .05 Cl- Pu(SO4)+ epsilon a= .157 ClO4- Pu(SO4)+ epsilon a= .22 Cl- Pu(SO4)++ epsilon a= .232 ClO4- Pu(SO4)++ epsilon a= .36 Na+ Pu(SO4)2- epsilon a= -.05 Cl- Pu+++ epsilon a= .23 ClO4- Pu+++ epsilon a= .49 Cl- Pu++++ epsilon a= .37 ClO4- Pu++++ epsilon a= .82 Cl- PuBr+++ epsilon a= .1 ClO4- PuBr+++ epsilon a= .58 Cl- PuCl+++ epsilon a= .1 ClO4- PuCl+++ epsilon a= .85 Cl- PuF+++ epsilon a= .1 ClO4- PuF+++ epsilon a= .56 Cl- PuF2++ epsilon a= .177 ClO4- PuF2++ epsilon a= .36 Cl- PuF3+ epsilon a= .1 Cl- PuI++ epsilon a= .191 ClO4- PuI++ epsilon a= .39 Cl- PuI+++ epsilon a= .1 Na+ PuO2(CO3)2-- epsilon a= -.7 Na+ PuO2(CO3)3---- epsilon a= -.2 Na+ PuO2(CO3)3----- epsilon a= -.53 Cl- PuO2(OH)+ epsilon a= -.003 Na+ PuO2(SO4)- epsilon a= -.74 Na+ PuO2(SO4)2-- epsilon a= -.12 Cl- PuO2+ epsilon a= .129 ClO4- PuO2+ epsilon a= .24 Cl- PuO2++ epsilon a= .223 ClO4- PuO2++ epsilon a= .46 Na+ PuO2CO3- epsilon a= -.18 Cl- PuO2Cl+ epsilon a= .318 ClO4- PuO2Cl+ epsilon a= .5 Cl- PuO2F+ epsilon a= .197 ClO4- PuO2F+ epsilon a= .29 Na+ PuO2F3- epsilon a= 0.0 Cl- PuO2NO3+ epsilon a= .22 ClO4- PuO2NO3+ epsilon a= .33 Na+ SO3-- epsilon a= -.08 Na+ SO4-- epsilon a= -.12 Na+ Scn- epsilon a= .05 Na+ SeO3-- epsilon a= -.08 Na+ SeO4-- epsilon a= -.12 Na+ Si2O2(OH)5- epsilon a= -.08 Na+ Si2O3(OH)4-- epsilon a= -.15 Na+ Si3O5(OH)5--- epsilon a= -.25 Na+ Si3O6(OH)3--- epsilon a= -.25 Na+ Si4O8(OH)4---- epsilon a= -.26 Cl- Sm(CO3)+ epsilon a= .129 ClO4- Sm(CO3)+ epsilon a= .17 Na+ Sm(CO3)2- epsilon a= -.14 Na+ Sm(CO3)3--- epsilon a= -.23 Cl- Sm(H2PO4)++ epsilon a= .191 ClO4- Sm(H2PO4)++ epsilon a= .39 Cl- Sm(NO3)++ epsilon a= .191 ClO4- Sm(NO3)++ epsilon a= .39 Cl- Sm(OH)++ epsilon a= -.04 ClO4- Sm(OH)++ epsilon a= .39 Cl- Sm(OH)2+ epsilon a= -.29 ClO4- Sm(OH)2+ epsilon a= .17 Cl- Sm(SO4)+ epsilon a= .157 ClO4- Sm(SO4)+ epsilon a= .22 Na+ Sm(SO4)2- epsilon a= -.05 Cl- Sm+++ epsilon a= .23 ClO4- Sm+++ epsilon a= .49 Cl- SmCl++ epsilon a= .191 ClO4- SmCl++ epsilon a= .39 Cl- SmF++ epsilon a= .191 ClO4- SmF++ epsilon a= .39 ClO4- Sn(OH)+ epsilon a= -.07 Na+ Sn(OH)3- epsilon a= .22 Cl- Sn++ epsilon a= .14 ClO4- Sn++ epsilon a= .19 ClO4- Sn++++ epsilon a= .7 ClO4- Sn3(OH)4++ epsilon a= -.02 ClO4- SnBr+ epsilon a= .15 Na+ SnBr3- epsilon a= .16 ClO4- SnCl+ epsilon a= .08 Na+ SnCl3- epsilon a= .04 ClO4- SnF+ epsilon a= .14 Na+ Th(CO3)5------ epsilon a= -.3 ClO4- Th(H2PO4)+++ epsilon a= .5 ClO4- Th(H2PO4)2++ epsilon a= .4 ClO4- Th(H3PO4)(H2PO4)+++ epsilon a= .5 ClO4- Th(H3PO4)++++ epsilon a= .7 ClO4- Th(NO3)+++ epsilon a= .56 NO3- Th(NO3)+++ epsilon a= .56 ClO4- Th(NO3)2++ epsilon a= .43 NO3- Th(NO3)2++ epsilon a= .43 Na+ Th(OH)(CO3)4----- epsilon a= -.22 Cl- Th(OH)+++ epsilon a= .19 ClO4- Th(OH)+++ epsilon a= .48 NO3- Th(OH)+++ epsilon a= .2 Na+ Th(OH)2(CO3)2-- epsilon a= -.1 Cl- Th(OH)2++ epsilon a= .13 ClO4- Th(OH)2++ epsilon a= .33 NO3- Th(OH)2++ epsilon a= .1 Na+ Th(OH)3(CO3)- epsilon a= -.05 Cl- Th(OH)3+ epsilon a= .06 ClO4- Th(OH)3+ epsilon a= .15 NO3- Th(OH)3+ epsilon a= .05 Na+ Th(OH)4(CO3)-- epsilon a= -.1 Cl- Th(SO4)++ epsilon a= .14 ClO4- Th(SO4)++ epsilon a= .3 Na+ Th(SO4)3-- epsilon a= -.091 Cl- Th++++ epsilon a= .25 ClO4- Th++++ epsilon a= .7 NO3- Th++++ epsilon a= .31 Cl- Th2(OH)2++++++ epsilon a= .4 ClO4- Th2(OH)2++++++ epsilon a= 1.22 NO3- Th2(OH)2++++++ epsilon a= .69 Cl- Th2(OH)3+++++ epsilon a= .29 ClO4- Th2(OH)3+++++ epsilon a= .91 NO3- Th2(OH)3+++++ epsilon a= .69 Cl- Th4(OH)12++++ epsilon a= .25 ClO4- Th4(OH)12++++ epsilon a= .56 NO3- Th4(OH)12++++ epsilon a= .42 Cl- Th4(OH)8++++++++ epsilon a= .7 ClO4- Th4(OH)8++++++++ epsilon a= 1.69 NO3- Th4(OH)8++++++++ epsilon a= 1.59 Cl- Th6(OH)14++++++++++ epsilon a= .83 ClO4- Th6(OH)14++++++++++ epsilon a= 2.2 NO3- Th6(OH)14++++++++++ epsilon a= 2.9 Cl- Th6(OH)15+++++++++ epsilon a= .72 ClO4- Th6(OH)15+++++++++ epsilon a= 1.85 NO3- Th6(OH)15+++++++++ epsilon a= 2.2 Cl- ThCl+++ epsilon a= .62 ClO4- ThCl+++ epsilon a= .62 ClO4- ThF+++ epsilon a= .48 NO3- ThF+++ epsilon a= .25 ClO4- ThF2++ epsilon a= .3 NO3- ThF2++ epsilon a= .15 ClO4- ThF3+ epsilon a= .1 NO3- ThF3+ epsilon a= 0.0 Na+ U(CO3)4---- epsilon a= -.09 Na+ U(CO3)5------ epsilon a= -.3 ClO4- U(NO3)+++ epsilon a= .62 Cl- U(NO3)2++ epsilon a= .236 ClO4- U(NO3)2++ epsilon a= .49 Cl- U(OH)+++ epsilon a= .2 ClO4- U(OH)+++ epsilon a= .48 Cl- U(OH)2++ epsilon a= .1 Cl- U(OH)3+ epsilon a= .05 Cl- U(SO4)++ epsilon a= .149 ClO4- U(SO4)++ epsilon a= .3 Cl- U+++ epsilon a= .23 ClO4- U+++ epsilon a= .49 Cl- U++++ epsilon a= .36 ClO4- U++++ epsilon a= .76 ClO4- UBr+++ epsilon a= .52 Cl- UCl+++ epsilon a= .1 ClO4- UCl+++ epsilon a= .5 Cl- UF+++ epsilon a= .1 ClO4- UF+++ epsilon a= .48 Cl- UF2++ epsilon a= .149 ClO4- UF2++ epsilon a= .3 Cl- UF3+ epsilon a= .1 ClO4- UF3+ epsilon a= .1 ClO4- UI+++ epsilon a= .55 NO3- UI+++ epsilon a= .56 Na+ UO2(CO3)2-- epsilon a= -.02 Na+ UO2(CO3)3---- epsilon a= -.01 Na+ UO2(CO3)3----- epsilon a= -.62 Na+ UO2(Cit)- epsilon a= -.11 Cl- UO2(NO3)+ epsilon a= .22 ClO4- UO2(NO3)+ epsilon a= .33 Cl- UO2(OH)+ epsilon a= -.003 ClO4- UO2(OH)+ epsilon a= -.06 NO3- UO2(OH)+ epsilon a= .51 Na+ UO2(OH)3- epsilon a= -.09 Na+ UO2(Ox)2-- epsilon a= -.18 Na+ UO2(Ox)3---- epsilon a= -.01 Na+ UO2(SO4)2-- epsilon a= -.12 Cl- UO2+ epsilon a= .18 ClO4- UO2+ epsilon a= .26 Cl- UO2++ epsilon a= .21 ClO4- UO2++ epsilon a= .46 NO3- UO2++ epsilon a= .24 Cl- UO2Br+ epsilon a= .169 ClO4- UO2Br+ epsilon a= .24 Cl- UO2Cl+ epsilon a= .22 ClO4- UO2Cl+ epsilon a= .33 Cl- UO2F+ epsilon a= .04 ClO4- UO2F+ epsilon a= .28 Na+ UO2F3- epsilon a= -.14 Na+ UO2F4-- epsilon a= -.3 Cl- Zn++ epsilon a= .163 ClO4- Zn++ epsilon a= .33 NO3- Zn++ epsilon a= .16 Na+ Zr(CO3)4---- epsilon a= -.09 ClO4- Zr(NO3)2++ epsilon a= .84 ClO4- Zr(OH)+++ epsilon a= .57 ClO4- Zr(OH)2++ epsilon a= .62 Na+ Zr(OH)6-- epsilon a= -.1 Cl- Zr++++ epsilon a= .89 ClO4- Zr++++ epsilon a= .89 NO3- Zr++++ epsilon a= .89 ClO4- Zr4(OH)15+ epsilon a= .09 ClO4- ZrCl+++ epsilon a= .87 ClO4- ZrCl2++ epsilon a= .84 ClO4- ZrF+++ epsilon a= .63 ClO4- ZrF2++ epsilon a= .47 Na+ ZrF5- epsilon a= -.14 Na+ ZrF6-- epsilon a= -.15 ClO4- ZrNO3+++ epsilon a= .88 -end- end of cation-anion set, begin neutral-ion epsilon -end- end of epsilon set * * Key References from ThermoChimie. Additional references available * from thermochimie-tdb.com/. * * Blanc, P., Vieillard, P., Gailhanou, H., Gaboreau, S., Marty, N., * Claret, F., Made, B., and Giffaut, E. 2015. ThermoChimie database * developments in the framework of cement/clay interactions. * Applied Geochemistry, 55, 95-107. * * Giffaut, E., Grive, M., Blanc, P., Vieillard, P., Colas, E., * Gailhanou, H., Gaboreau, S., Marty, N., Made, B., and Duro, L. * 2014. Andra thermodynamic database for performance assessment: * ThermoChimie. Applied Geochemistry, 49., 225-236. * * Grive, M., Duro, L., Colas, E., and Giffaut, E. 2015. * Thermodynamic data selection applied to radionuclides and * chemotoxic elements: an overview of the ThermoChimie-TDB. * Applied Geochemistry, 55, 85-94. * * * Sources for gas fugacity coefficient calculations. * * Reid, R.C., J.M. Prausnitz and B.E. Poling, 1987, The Properties of * Gases and Liquids. McGraw Hill, 741 p. * * Spycher, N.F. and M.H. Reed, Fugacity coefficients of H2, CO2, CH4, * H2O and of H2O-CO2-CH4 mixtures: A virial equation treatment for * moderate pressures and temperatures applicable to calculations of * hydrothermal boiling. Geochimica et Cosmochimica Acta 52, 739-749. * * Tsonopoulos, C., 1974, An empirical correlation of second virial * coefficients. AIChE Journal 20, 263-272.