At 100 0 C the equilibrium constant for the reaction COCl 2 (g) = CO (g) + Cl 2 (g) has the value of Kc = 2. 19 x 10 – 10 . Predict the direction in which the system will move to reach equilibrium from the following given concentrations: A) [ COCl 2 (g)] = 5. 00x 10 – 2 M ; [ CO (g) ] = 3. 31 x 10 – 6 M ; [ Cl 2 (g) ] = 3. 31 x 10 – 6 M B) [ COCl 2 (g)] = 1. 45 M ; [ CO (g)] = 1. 56 x 10 – 6 M ; [ Cl 2(g)] = 1. 56 x 10 – 6 M
At 100 0 C the equilibrium constant for the reaction COCl 2 (g) = CO (g) + Cl 2 (g) has the value of Kc = 2. 19 x 10 – 10 . Predict the direction in which the system will move to reach equilibrium from the following given concentrations: A) [ COCl 2 (g)] = 5. 00x 10 – 2 M ; [ CO (g) ] = 3. 31 x 10 – 6 M ; [ Cl 2 (g) ] = 3. 31 x 10 – 6 M B) [ COCl 2 (g)] = 1. 45 M ; [ CO (g)] = 1. 56 x 10 – 6 M ; [ Cl 2(g)] = 1. 56 x 10 – 6 M
Chemistry
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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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At 100 0 C the equilibrium constant for the reaction COCl 2 (g) = CO (g) + Cl 2 (g) has the value of Kc = 2. 19 x 10 – 10 . Predict the direction in which the system will move to reach equilibrium from the following given concentrations:
A) [ COCl 2 (g)] = 5. 00x 10 – 2 M ; [ CO (g) ] = 3. 31 x 10 – 6 M ; [ Cl 2 (g) ] = 3. 31 x 10 – 6 M
B) [ COCl 2 (g)] = 1. 45 M ; [ CO (g)] = 1. 56 x 10 – 6 M ; [ Cl 2(g)] = 1. 56 x 10 – 6 M
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