Homework Answers
Kc is defined as concentration of product by concentration of reactant with each concentration term raised to power that is equal to its stoichiometric coefficient in balanced equation
pure liquid and solid do not appear in Kc
a)
pure liquid and solid do not appear in Kc
So, MnO2 and H2O will not be part of KC.
So,
Kc = [Mn2+][Cl2] / [H+]^4[Cl-]^2
b)
pure liquid and solid do not appear in Kc
So, PCl5 will not be part of KC.
So,
Kc = [PCl3][Cl2]
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Determine the equilibrium constant expression for the following reactions: (2) MnO2(s) +4Ha) +2Ca Mn)+Cl2a)+ 2H,O i)...
Balance the following half-reaction occurring in basic solution MnO2(8) - Mn(OH)2(s) MnO2 (s) + H22(aq) +...
Balance the following half-reaction occurring in basic solution MnO2(8) - Mn(OH)2(s) MnO2 (s) + H22(aq) + 2e - Mn(OH)2(s) MnO2(s) + 2H2O(l) + 26 - Mn(OH)2(s)+ 2OH(aq) MnO2(s) + 2H2O(l) - Mn(OH)2(3)+20H(aq) MnO2(s) + H2(g) - Mn(OH)2(s) + 2e- MnO2(s) + 2H2O(1) + 4e - Mn(OH)2(s)+ (OH)2 (aq)
Piece #1 (1/2 pt) Consider the following reaction (unbalanced): MnO2 (s) + H3AsO3(aq) -Mn²+ (aq) +...
Piece #1 (1/2 pt) Consider the following reaction (unbalanced): MnO2 (s) + H3AsO3(aq) -Mn²+ (aq) + H2AsO(aq) Split the reaction into two half-reactions. Oxidation half reaction: H:AsO3(aq) → H3 AsO, (aq) Reduction half reaction: MnO2 (s) Mn (aq) Piece #2 (1/2 pt) Consider the following half-reaction: MnOz(s) - Mn2+ (aq) Balance everything but oxygen and hydrogen atoms. MnO2 (s) + 2e Mn (aq) Piece W3 (1/2 pu) Take your answer to Piece #2 and balance the oxygen by adding a...
help with questions please TA'[B Write the expression for the equilibrium constant for the following reactions:...
help with questions please
TA'[B Write the expression for the equilibrium constant for the following reactions: N204 (g) 2NO2 (g) N2 (9) + 3H2 (g) = 2NH3 (9) Solids are not included in the expression since the concentrations do not change. After you write the expression, explain why the solid concentrations do not change. MgCO3(s) = MgO(s) + CO2(g) Solvents are not included in the expression since the concentrations do not change. After you write the expression, explain why the...
5. Consider the following redox reaction at 25 °C: (10 points) MnO2 (s) → Mn? (aq)...
5. Consider the following redox reaction at 25 °C: (10 points) MnO2 (s) → Mn? (aq) + MnOs (aq) (a) Balance the equation in acid (b) Calculate Eºcell (c) Calculate AGran (d) Calculate Hint!!! After balancing your half-reactions, determine which reaction is oxidation and which reaction is the reduction and use Eºcell = Ecath (red) -Eanode (ow)
For each of the following reactions: (a) Write the Equilibrium expression (b) Calculate the Equilibrium Constant,...
For each of the following reactions: (a) Write the Equilibrium expression (b) Calculate the Equilibrium Constant, Kc (c) Determine the DIRECTION of the reaction (d) Determine if the reaction is in Equilibrium (e) Determine the effect of INCREASING the temperature (f) Determine the effect of increasing the concentration of ONE of the reactants. (g) Determine the effect of increasing the volume of the container. (h) Determine the effect of increasing the Pressure in the container. Reaction 1: N204(g) 2NO2(g) Reaction...
Write balanced half-reactions for the following redox reaction: 512(3)+2 Mn²+ (aq)+160H (aq) → 101 (aq)+2 MnO2...
Write balanced half-reactions for the following redox reaction: 512(3)+2 Mn²+ (aq)+160H (aq) → 101 (aq)+2 MnO2 (aq)+8 H20(1) reduction: oxidation:
7. Write an expression for the equilibrium constant for this reaction Ca(OH)25) + 2H" (aq) 5...
7. Write an expression for the equilibrium constant for this reaction Ca(OH)25) + 2H" (aq) 5 24,0() + Car"(aq)
Write the equilibrium constant expression for this reaction: H_2CO_3(ag) rightarrow 2H^+ (aq) + CO^2-_3 (aq)
Write the equilibrium constant expression for this reaction: H_2CO_3(ag) rightarrow 2H^+ (aq) + CO^2-_3 (aq)
Review 1: Equilibrium 1. Write equilibrium expressions for the following reversible reactions: a. 2 NO: (g=N.O.(...
Review 1: Equilibrium 1. Write equilibrium expressions for the following reversible reactions: a. 2 NO: (g=N.O.( b. N. (g) + 3 H2(g) = 2 NH, (g) c. 2 SO, (g) + O2(g) = 2 SO, (g) 2. For the equilibrium system described by 2 SO2(g) + O(g) = 2 SO, (g), the equilibrio concentrations of SO, O, and SO, were 0.75 M, 0.30 M, and 0.15 M, respectively. Calculate th equilibrium constant, Keq, for the reaction. 3. Keq = 35...
MnO_2(s) + 2H_2 O(I) +2e = Mn^2+ (aq) + 40H^- (aq) epsilon^o = 1.208 v 2HNO_3...
MnO_2(s) + 2H_2 O(I) +2e = Mn^2+ (aq) + 40H^- (aq) epsilon^o = 1.208 v 2HNO_3 (aq) + 2H^+ (aq) + 2e = N_2 O_4 (g) + 2H_2 O(I) epsilon^o = 0.96 v N_2 O_4(g) + 2H^+ (aq) + 2e = 2HNO_2 (aq) epsilon^o = 0.92 v Derive the reduction potential for reaction 3 above from two reduction potentials [2 above and 4 below], HNO_3 (aq) + 2H^+ (aq) + 2e = HNO_2 (aq) + H_2 O(l) epsilon^o = 0.94...
Balance the following half-reaction occurring in basic solution MnO2(8) - Mn(OH)2(s) MnO2 (s) + H22(aq) + 2e - Mn(OH)2(s) MnO2(s) + 2H2O(l) + 26 - Mn(OH)2(s)+ 2OH(aq) MnO2(s) + 2H2O(l) - Mn(OH)2(3)+20H(aq) MnO2(s) + H2(g) - Mn(OH)2(s) + 2e- MnO2(s) + 2H2O(1) + 4e - Mn(OH)2(s)+ (OH)2 (aq)
Piece #1 (1/2 pt) Consider the following reaction (unbalanced): MnO2 (s) + H3AsO3(aq) -Mn²+ (aq) + H2AsO(aq) Split the reaction into two half-reactions. Oxidation half reaction: H:AsO3(aq) → H3 AsO, (aq) Reduction half reaction: MnO2 (s) Mn (aq) Piece #2 (1/2 pt) Consider the following half-reaction: MnOz(s) - Mn2+ (aq) Balance everything but oxygen and hydrogen atoms. MnO2 (s) + 2e Mn (aq) Piece W3 (1/2 pu) Take your answer to Piece #2 and balance the oxygen by adding a...
help with questions please
TA'[B Write the expression for the equilibrium constant for the following reactions: N204 (g) 2NO2 (g) N2 (9) + 3H2 (g) = 2NH3 (9) Solids are not included in the expression since the concentrations do not change. After you write the expression, explain why the solid concentrations do not change. MgCO3(s) = MgO(s) + CO2(g) Solvents are not included in the expression since the concentrations do not change. After you write the expression, explain why the...
5. Consider the following redox reaction at 25 °C: (10 points) MnO2 (s) → Mn? (aq) + MnOs (aq) (a) Balance the equation in acid (b) Calculate Eºcell (c) Calculate AGran (d) Calculate Hint!!! After balancing your half-reactions, determine which reaction is oxidation and which reaction is the reduction and use Eºcell = Ecath (red) -Eanode (ow)
For each of the following reactions: (a) Write the Equilibrium expression (b) Calculate the Equilibrium Constant, Kc (c) Determine the DIRECTION of the reaction (d) Determine if the reaction is in Equilibrium (e) Determine the effect of INCREASING the temperature (f) Determine the effect of increasing the concentration of ONE of the reactants. (g) Determine the effect of increasing the volume of the container. (h) Determine the effect of increasing the Pressure in the container. Reaction 1: N204(g) 2NO2(g) Reaction...
Write balanced half-reactions for the following redox reaction: 512(3)+2 Mn²+ (aq)+160H (aq) → 101 (aq)+2 MnO2 (aq)+8 H20(1) reduction: oxidation:
7. Write an expression for the equilibrium constant for this reaction Ca(OH)25) + 2H" (aq) 5 24,0() + Car"(aq)
Write the equilibrium constant expression for this reaction: H_2CO_3(ag) rightarrow 2H^+ (aq) + CO^2-_3 (aq)
Review 1: Equilibrium 1. Write equilibrium expressions for the following reversible reactions: a. 2 NO: (g=N.O.( b. N. (g) + 3 H2(g) = 2 NH, (g) c. 2 SO, (g) + O2(g) = 2 SO, (g) 2. For the equilibrium system described by 2 SO2(g) + O(g) = 2 SO, (g), the equilibrio concentrations of SO, O, and SO, were 0.75 M, 0.30 M, and 0.15 M, respectively. Calculate th equilibrium constant, Keq, for the reaction. 3. Keq = 35...
MnO_2(s) + 2H_2 O(I) +2e = Mn^2+ (aq) + 40H^- (aq) epsilon^o = 1.208 v 2HNO_3 (aq) + 2H^+ (aq) + 2e = N_2 O_4 (g) + 2H_2 O(I) epsilon^o = 0.96 v N_2 O_4(g) + 2H^+ (aq) + 2e = 2HNO_2 (aq) epsilon^o = 0.92 v Derive the reduction potential for reaction 3 above from two reduction potentials [2 above and 4 below], HNO_3 (aq) + 2H^+ (aq) + 2e = HNO_2 (aq) + H_2 O(l) epsilon^o = 0.94...
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