Calculate K for each salt in an aqueous solution at 25 °C inwhich µ = 0.0100 M. Use the table of Kp values and a tableof activity coefficients to solve this problem.CompoundFormulaВа, (РО,), 3.40 х10-23cobalt(II) phosphate Co,(PO), 2.05 × 10-35La(IO,), 7.50 x 10-12barium phosphatelanthanum iodatemagnesium phosphate |Mg,(PO,), |1.04 × 10–243.71 x 10-40.000459KIO,potassium periodateKIO,scandium hydroxide Sc(OH), 2.22 × 10–31AgSCN 1.03 x 10-12Y(10,), 1.12 x 10¬101.46 x 10-10silver thiocyanateyttrium iodateY(I0;)3K =2.30 x10-11zinc carbonateZNCO,Ba,(PO,),K, =2.03 x10-23+ Post a new djuestiontvhulu4MacBook Pro$&47{RYFHJK....* C0 for Aqueous Solutions at 25CIonsize(a pm)Ionic Strength( p M)Ion0.0010.0050.010,050.1Charge= +/-1Activity coefficient (y)H+9000.9670.9330.9140.860.83(C6H5)2CHCO2 , (C3H7)4N*(O2N)3C6H2O¯(C3H7)NH* CH3O6H4CO2-8000.9660.9310.9120.850.827000.9650.9300.9090.8450.81Li* C6H5CO2", HOC,H4CO2-, CIC6H4CO2-, C6H5CH2CO2,CH2=CHCH2CO2-(CH3)2CHCH2CO2-, (CH3CH2)4N4.(C3H7)2NH2+6000.9650.9290.9070.8350.80C2CHCO2 , CI3CCO2, (CH3CH2)3NH*, (C3H7)NH3*Na", CdCI*, CIO2 , 103", HCO3 , H2PO4 , HSO3", H2ASO4",Co(NH3)4(NO2)2*, CH3CO2", CICH2CO2 (CH3)4N",(CH3CH2)2NH2*, H2NCH2CO2"H3NCH2CO2H,(CH3)3NH4, CH3CH2NH3*5000.9640.9280.9040.830.794500.9640.9280.9020.820.7754000.9640.9270.9010.8150.77OH,F, SCN, OCN", HS", CIO3, CIO4", BrO3, 104, Mn04",3500.9640.9260.9000.810.76HCO2, H2citrate", CH3NH3*, (CH3))2NH2*K*, cr", Br",T', CN", NO2", NO3Rb*, Cs*, NH4+, TI*, Ag*3000.9640.9250.8990.8050.7552500.9640.9240.8980.800.75Charge= +/-2Activity coefficient (y)Mg+, Be2+CH2(CH2CH2CO22, (CH2CH2CH2CO2-)2Ca2+ Cu²+¸ Zn²+, Sn²+, Mn²+, Fe+2,Ni²+, Co+2.C6H4(CO2)2.8000.8720.7550.690.520.457000.8720.7550.6850.500.4256000.8700.7490.6750.4850.405H2C(CH2CO2)2, (CH2CH2CO2")2s2+, Ba2+, Ca²+, Hg²+, s² ,s204²", wo4²", H2C(CO2^)2,5000.8680.7440.670.4650.38(CH2CO2)2, (CHOHCO2)2Pb 2+ .Co 3²- ,so 3²- , MoO 4²- , Co(NH 3 ) 5 CI 2+ . Fe(CN) 5NO 2- ,C204² , Hcitrate 2-Hg22+, so,?", s203²,S206²,, s20g², SeO4², C.o,², HPO4²-4500.8670.7420.6650.4550.374000.8670.7400.6600.4450.355Charge= +/- 3AI3+, Fe3+¸ Cr3+, Sc³+, y3+¸ In³+, lanthanides“Activity coefficient (y)9000.7380.540.4450.2450.18citrate35000.7280.510.4050.180.115PO4, Fe(CN),, Cr(NH3)6*+, Co(NH3)6*+, Co(NH3)5H20³+4000.7250.5050.3950.160.095Charge =+/-4Activity coefficient (y)Th4+,z4+ Ce4+, Sn+11000.5880.350.2550.100.065Fe(CN),45000.570.310.200.0480.021+ Post a new question山T四674étv AA AhuluMacBook Pro

CONCEPT: K'sp =Concentration solubility product constantK'sp =Ksp γx γyKsp = Thermodynamic…

Calculate K for each salt in an aqueous solution at 25 °C in which u = 0.0100 M. Use the table of Kp values and a table of activity coefficients to solve this problem. KIO4 Kp = 0.000459 Y(I0,), Kp = 2.30 x10-11

Calculate K for each salt in an aqueous solution at 25 °C in which u = 0.0100 M. Use the table of Kp values and a table of activity coefficients to solve this problem. KIO4 Kp = 0.000459 Y(I0,), Kp = 2.30 x10-11

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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