Consider the reaction and associated equilibrium constant: aA (g) bB (g), K_c =

ID: 912808 • Letter: C

Question

Consider the reaction and associated equilibrium constant: aA (g) bB (g), K_c = 2.4 Assume that the initial concentration of A is 1.0 M and that no B is present at the beginning of the reaction. Find the equilibrium concentrations of A and B if their a and b coefficients are: a = 1 and b = 1. then for a = 2 and b = 2, and then for a = 2 and b = 1. Consider the reaction: A (g) B (g) + C (g) Find the equilibrium concentrations of A, B, and C for each of the different values of K_c. Assume that the initial concentration of A in each case is 1.0 M and that the reaction mixture initially contains no products. Make any appropriate simplifying assumptions Calculate for K_c= 1.0, then K_c = 1 0 Times 10^-2, then K_c= 1.8 Times 10^-5. (cannot neglect x for first two so must use quadratic for the third you can neglect the x, then x = 0.0042 = [B] and [C], [A] = 1 - 0.0042 = 0.9957 = 1)

Explanation / Answer

23)

K = 2.4

aA <-> bB

a = 1 and b = 1

then

A <-> B

Kc = [B]/[A]

initially

[B] = 0

[A] = 1

in equilibrium

[B] = 0 + x

[A] = 1 - x

then

Kc = [B]/[A]

2.4 = (x)/(1-x)

Solve for x

2.4-2.4x = x

3.4x = 2.4

x = 2.4/3.4 = 0.70588

[B] = 0.70588

[A] = 1- 0.70588= 0.29412

for the case

2A <--> 2B

Kc = [B]^2 /[A]^2

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Consider the reaction and associated equilibrium constant: aA (g) bB (g), K_c =

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