Calculate Ksp for Ag2S(s), then using standard free energies of formation, calculate molar solubility of Ag+ and S2-.
Delta G of Ag2S = -40.7KJ/mol
Delta G of Ag+ = 77.11KJ/mol
Delta G of S2- = 83.7KJ/mol
Comment in case of any doubt.
Calculate Ksp for Ag2S(s), then using standard free energies of formation, calculate molar solubility of Ag+...
Calculate Ksp for Ag2S(s), then calculate molar solubility of Ag+ and S2-. Delta G of Ag2S = -40.7KJ/mol Delta G of Ag+ = 77.11KJ/mol Delta G of S2- = 83.7KJ/mol ICE table and clear breakdown of relationship of Ksp and Delta G. please.
The molar solubility of Ag2S is 1.26 × 10-16 M in pure water. Calculate the Ksp for Ag2S.
(please show all work and ice table, thanks) 2. Calculate the solubility product, Kop, for Ag2S13) using the standard free energies of formation from Appendix G in Open-Stax. Calculate the molar solubility of [Ag*] (silver ion) and for [S2] (sulfur ion). (30 points) Agas (s) = 2 Ag+ + sa K=[Agt][so-] Tas
The standard molar free energies of formation of NO2(g) and N2O4(g) at 25C are 51.840 and 98.280kJ/mol, respectively. What is the Value of Kp for the following equilibrium at 25C?
Standard free energies of formation, AG, in kj/mol, are given below each reactant and product in the reaction shown below. The standard free energy of reaction, AG', for this reaction is kj. Enter your answer as the nearest Integer with no units. CH468) 2 028) -CO2(g) + 2 H200) - 50.8 0 - 394.4 -237.2
(20 marks) 5. Consider Agl(s), Ksp -8.3x10-17 a) Calculate the molar solubility of Agl in pure water. b) Considering the complex formation constant K 1.0x1021 for [Ag(CN)2], calculate the equilibrium constant for the reaction: Agl(s) + 2 CN (aq)[Ag(CN2] (aq) + I'(aq) c) Calculate the molar solubility of Agl in a 0.100 M NaCN solution. (20 marks) 5. Consider Agl(s), Ksp -8.3x10-17 a) Calculate the molar solubility of Agl in pure water. b) Considering the complex formation constant K 1.0x1021...
Using the table of standard entropies and enthalpies of formation, calculate AH°, ASº, and AG° for the following reactions at 298.15 K. (Use only the table of standard entropies and standard enthalpies of formation, not the table of standard Gibbs free energies.) kJ AH; () AS; mol-K mol Compound C(s) 5.7 CO(g) -110.5 197.7 The equation SiO2(s) + 2 Mg(s) Si(s) + 2 CO2(g) -393.5 213.8 MgO(s) C2(g) 223.1 H2(g) 130.7 • AH° kJ HCl(g) 186.9 -92.3 • AS° MK...
Calculate standard free energy change using AG values. Consider the reaction 2CO2(g) + 3H2(g) C2H2() + 4H2O(g) Use standard free energies of formation to calculate the standard free energy change for this reaction at 25°C. AG9rxn = kJ/mol
b. calculate the molar solubility(s) and from that the Ksp of Ba(OH)2 at 0*c. c. calculate the delta G* for the dissolution of Ba(OH)2 from the Ksp calculated in part b, at 0*c. Section: Date: Pre-Lab Questions 1. A 10.0 mL sample of Balohi, at Or is itrated with 200 M HCL and 5.22 ml of the acid are used to reach the yellow endpoint. a. Calculate the concentration of OH in the 10.0 mL sample of BalOH) at O'C....
QUESTION 2 Standard free energies of formation, AG, inkl/mol, are given below each reactant and product in the reaction shown below. The standard free energy of reaction, AG, for this reaction is ). Enter your answer as the nearest whole number with no units. CHA) + 2 026) - CO2(g) + 2 H204) - 50.8 0 -3944-2372