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Direction: Answer the following questions accordingly. 1. Hydrogen gas and iodine react to form hydrogen iodide via the reaction H(g) + I(g) = 2HI(g) A mixture of H, and I was maintained at 740 K until the system reached equilibrium. The equilibrium mixture contained 1.37×10 M HI, 6.47×10 M H, and 5.94×10 MI. Calculate K and Kp for this reaction.

Direction: Answer the following questions accordingly. 1. Hydrogen gas and iodine react to form hydrogen iodide via the reaction H(g) + I(g) = 2HI(g) A mixture of H, and I was maintained at 740 K until the system reached equilibrium. The equilibrium mixture contained 1.37×10 M HI, 6.47×10 M H, and 5.94×10 MI. Calculate K and Kp for this reaction.

Chemistry: The Molecular Science
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter12: Chemical Equilibrium
Section: Chapter Questions
Problem 7QRT
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Hydrogen gas and iodine solid react to form hydrogen iodide via the reaction

H2 (g) + 12 (s) = 2 HI(g)

A mixture of H2 and I was maintained at 740 K until the system reached equilibrium. The equilibrium mixture contained

1.37x10-3MHI,

6.47 x 10-3 M H, and

5.94 x 104 M 12

Direction: Answer the following questions accordingly. 1. Hydrogen gas and iodine react to form hydrogen iodide via the reaction H,(g) + 1,(g) = 2HI(g) A mixture of H, and I was maintained at 740 K until the system reached equilibrium. The equilibrium mixture contained 1.37×10 M HI, 6.47×10 M H, and 5.94×10 MI,. Calculate K and Kp for this reaction.
Transcribed Image Text:Direction: Answer the following questions accordingly. 1. Hydrogen gas and iodine react to form hydrogen iodide via the reaction H,(g) + 1,(g) = 2HI(g) A mixture of H, and I was maintained at 740 K until the system reached equilibrium. The equilibrium mixture contained 1.37×10 M HI, 6.47×10 M H, and 5.94×10 MI,. Calculate K and Kp for this reaction.
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