A technician is producing hydrogen gas. He adds methane gas, steam, and a nickel catalyst to an empty reaction container and allows the system to reach equilibrium. The reaction is represented by the following equation. CH,(g) + H,O(g) = 3 H,(g) + CO(g) The technician's data are represented by the following graph. Production of Hydrogen at 500 °C 2.000 Ho(g) 1.600 1.200- 0.800- COg) 0.400 CH,(g) H,O(g) 10 12 Time (min) 13. The equilibrium constant for the reaction represented in the graph above is Concentration (mol/L.)
A technician is producing hydrogen gas. He adds methane gas, steam, and a nickel catalyst to an empty reaction container and allows the system to reach equilibrium. The reaction is represented by the following equation. CH,(g) + H,O(g) = 3 H,(g) + CO(g) The technician's data are represented by the following graph. Production of Hydrogen at 500 °C 2.000 Ho(g) 1.600 1.200- 0.800- COg) 0.400 CH,(g) H,O(g) 10 12 Time (min) 13. The equilibrium constant for the reaction represented in the graph above is Concentration (mol/L.)
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter13: Chemical Equilibrium
Section: Chapter Questions
Problem 3RQ: Consider the following reactions at some temperature: 2NOCl(g)2NO(g)+Cl2(g)K=1.6105...
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Transcribed Image Text:A technician is producing hydrogen gas. He adds methane gas, steam, and a nickel catalyst
to an empty reaction container and allows the system to reach equilibrium. The reaction is
represented by the following equation.
CH,(g) + H,O(g) = 3 H,(g) + CO(g)
The technician's data are represented by the following graph.
Production of Hydrogen at 500 °C
2.000
H,(g)
1.600->
1.200-
0.800-
CO)
0.400
CH,ig)
H,O(g)
0-
6.
10
12
Time (min)
13. The equilibrium constant for the reaction represented in the graph above is
Concentration (mol/L)
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