11.) Ke for the reaction of hydrogen and iodine to produce hydrogen iodide (shown below), is 54.3 at 430°C. Show ALL work! H2(g) + I2(g) = 2HI(g) a. What will the concentrations be at equilibrium if the initial concentrations of both H2 and I2 are 0.240 M ? b. calculate the equilibrium concentrations of all three species at 430°C if the starting concentrations are as follows: [H2] = 0.00623 M, [I] = 0.00414 M, [HI] = 0.0424 M.
11.) Ke for the reaction of hydrogen and iodine to produce hydrogen iodide (shown below), is 54.3 at 430°C. Show ALL work! H2(g) + I2(g) = 2HI(g) a. What will the concentrations be at equilibrium if the initial concentrations of both H2 and I2 are 0.240 M ? b. calculate the equilibrium concentrations of all three species at 430°C if the starting concentrations are as follows: [H2] = 0.00623 M, [I] = 0.00414 M, [HI] = 0.0424 M.
Chemistry: Principles and Reactions
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Chapter12: Gaseous Chemical Equilibrium
Section: Chapter Questions
Problem 34QAP: At 500C, k for the for the formation of ammonia from nitrogen and hydrogen gases is 1.5105....
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![11.) Ke for the reaction of hydrogen and iodine to produce hydrogen iodide (shown below), is
54.3 at 430°C. Show ALL work!
H2(g) + I2(g) = 2HI(g)
a. What will the concentrations be at equilibrium if the initial concentrations of both H2
and I2 are 0.240 M ?
b. calculate the equilibrium concentrations of all three species at 430°C if the starting
concentrations are as follows: [H2] = 0.00623 M, [I2] = 0.00414 M, [HI] = 0.0424 M.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8acd4021-f643-407d-9d42-7124cf5151d6%2F00773bce-6426-4705-aba3-6c7cee58169d%2Fexu9ivi_processed.png&w=3840&q=75)
Transcribed Image Text:11.) Ke for the reaction of hydrogen and iodine to produce hydrogen iodide (shown below), is
54.3 at 430°C. Show ALL work!
H2(g) + I2(g) = 2HI(g)
a. What will the concentrations be at equilibrium if the initial concentrations of both H2
and I2 are 0.240 M ?
b. calculate the equilibrium concentrations of all three species at 430°C if the starting
concentrations are as follows: [H2] = 0.00623 M, [I2] = 0.00414 M, [HI] = 0.0424 M.
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