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What is the correct expression of the solubility product constant (Ksp) for the following equilibrium? PbCl(s)...
What is the correct expression of the solubility product constant (Ksp) for the following equilibrium? PbC14 (s) = P64+ (aq) + 4Cl- (s) P64+ K 8p [c1"]" Кsp [Pb2+] [c1-14 [PbC14] [Ps+]4x [C] K sp = (PbC14) O Køp = [P64+] [C1-14
What is the correct expression of the solubility product constant (Ksp) for the following equilibrium? PbCl4 (s) = P64+ (aq) + 4C1- (s) K SP [P0++] [C1-]4 4 [PB+][c1] sp [PbCl4] [Pb++]ax [cr] Ksp = [PbC14] OK sp = [Pb1+] [C1-14
Write the chemical equation for the solubility equilibrium and the Ksp expression for each compound please help and explain steps AgI First, write the solubility equilibrium for Agi. Include physical states in your answer: ? Edit Next, write the solubility product constant for Agi: OK = [Ag+][I-12 sp sp Ksp = ([Ag+][1-)) / [AgI] Okn = [Agl] / [[Ag+][1-1) Ksp = [Ag+][1-) AuCl3 First, write the solubility equilibrium for AuCl3. Include physical states in your answer: |? Edit Next, write...
An electrochemical cell was designed in order to determine the solubility product constant, Ksp for PbCO2. The cell uses the half reactions shown below to produce the overall dissociation reaction. cathode reaction: anode reaction: overall reaction: PbCO2 (s) + 2e → Pb(s) + CO - (aq) Pb(s) + Pb2+ (aq) + 2 e- PbCO3(s) — Pb2+ (aq) + CO2 (aq) Which equality correctly represents the relationship between the equilibrium constant expression for the overall reaction and the solubility product constant...
An electrochemical cell was designed in order to determine the solubility product constant, Ksp for PbCO3. The cell uses the half reactions shown below to produce the overall dissociation reaction. cathode reaction: anode reaction: overall reaction: PbCO3(s) + 2e — Pb(s) + Coz- (aq) Ph(s) — Pb2+ (aq) + 2 e- PbCO,(s) — Pb2+ (aq) + CO2 (aq) Which equality correctly represents the relationship between the equilibrium constant expression for the overall reaction and the solubility product constant for PbCO,?...
a. Choose the expression for the thermodynamic equilibrium constant for the following reaction: CO(g) 2H2 (g)-CH3 OH(g) Рсн,он Pco P Pco PH K K ок -к, Рсн,он K K, PcH, OH 1 K K,= Pco PH b. Choose the expression for the thermodynamic equilibrium constant for the following reaction: Fe (aq)+30H (aq) Fe(OH)3 (s) Fe(OH)s] K=Ksp Fe OH 1 3+ Ок- Fe OH Ksp 3+ OK K.,= [Fe [OH 3+ Fe(OH)s Fe OH1 1 K= КР c. Choose the expression...
What is the equilibrium constant expression in terms of molar solubility , s , for the insoluble salt , Ag2CrO4 ? 1. ksp= s^2 2. Ksp= 4s^3 3. Ksp= 108s^5 4. Ksp= s^3
Write the ionic equation for dissolution and the solubility product (Ksp) expression for each of the following slightly soluble ionic compounds. (For the ionic equations, include states-of-matter under the given conditions in your answer. Solubility equilibrium expressions take the general form: Ksp = [An+ ]a . [Bm− ]b. Subscripts and superscripts that include letters must be enclosed in braces {}. For example: Ksp=[A+]2.[B2-] must be typed using K_{sp}=[A^+]^2.[B^2-] (a) Ag2CrO4 Net ionic equation Solubility product expression (c) Sn(OH)2 Net ionic...
B. Solubility Equilibrium; Finding a Value for Ksp 2. Explain why PbCl 2 did not precipitate immediately on addition of HCl. What conditions must be met by [Pb2 + ] and [Cl- ] if PbCl 2 is to form? 3. Explain your observations in Steps 3 (The amount of precipitate begins to decrease as it dissolves in the hot water.) and 4 (The precipitate reappears, forming after the test tube was put in ice water.) of the procedure. In which...
Which of the following is correct? Solubility = Kw * Ksp. O Ksp is the same as the solubility. O Ksp is an equilibrium constant and solubility is the concentration of a saturated solution. O Solubility is the concentration of unsaturated ions in solution O Ksp is the solubility product constant for a precipitate.