The familiar form for the Arrhenius equation for two different absolute temperatures T₁ and T₂ is:

ln k₂?/?k₁ = ?E_a?/?R (1?/?T₂ ? 1?/?T₁?)
Equations relating several parameters can usually be expressed in any of several algebraically equivalent expressions.
Which of the following is an algebraically equivalent expression of the Arrhenius equation?

A. ln k₂?/?k₁ = E_a?/?R (1?/?T₁ ? 1?/?T₂?)

B. ln k₂?/?k₁ = R?/?E_a (1?/?T₁ ? 1?/?T₂?)

C. ln k₁?/?k₂ = E_a?/?R (1?/?T₁ ? 1?/?T₂?)

D. ln k₁?/?k₂ = R?/?E_a (1?/?T₁ ? 1?/?T₂?)

± Adding Equilibrium Reactions

Learning Goal:

To understand how to calculate the equilibrium constants for chemical equations that can be produced by the addition of other chemical equations with known equilibrium constants.

For a chemical reaction equation with the general form

aA+bB⇌cC+dD

K1=[C]c[D]d[A]a[B]b

Thus, for a chemical reaction equation with the general form

cC+dD⇌eE+fF

K2=[E]e[F]f[C]c[D]d

aA+bB⇌eE+fF

K3=[E]e[F]f[A]a[B]b=[C]c[D]d[A]a[B]b⋠[E]e[F]f[C]c[D]d

K3=K1⋠K2

Thus, when a chemical equation is the sum of two chemical equations for which equilibrium constants are already known, the equilibrium constant for the reaction is the product of the equilibrium constants for the individual reactions. Keep in mind that equilibrium equations do not include expressions for any pure solids or liquids that may be involved in the reaction.

Part A

H2S⇌HS−+H+, K1 = 9.86×10^−8, and

HS−⇌S2−+H+, K2 = 1.25×10^−19,

S2−+2H+⇌H2S

Enter your answer numerically.

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Part B

PbCl2⇌Pb2++2Cl−, K3 = 1.76×10^−10, and

AgCl⇌Ag++Cl−, K4 = 1.13×10^−4,

PbCl2+2Ag+⇌2AgCl+Pb2+

Express your answer numerically.

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