Consider the reaction scheme for degradation of water 1 atm: Reaction 1: H2O ↔ H2 + 1/2 O2 Reaction 2: H20 ↔ 1/2 H2 + OH Delta G1 = 228,566 kJ/kmol Delta G2 = 263.270 kJ/kmol AHr1° = 241,820 kJ/kmol AHr2° = 281,280 kJ/kmol A) Calculate the value of the equilibrium constant for each Reaction at 25°C. What does this tell you about the equilibrium composition B) Estimate the equilibrium constant for each reaction 1 at 5,000°C
Consider the reaction scheme for degradation of water 1 atm: Reaction 1: H2O ↔ H2 + 1/2 O2 Reaction 2: H20 ↔ 1/2 H2 + OH Delta G1 = 228,566 kJ/kmol Delta G2 = 263.270 kJ/kmol AHr1° = 241,820 kJ/kmol AHr2° = 281,280 kJ/kmol A) Calculate the value of the equilibrium constant for each Reaction at 25°C. What does this tell you about the equilibrium composition B) Estimate the equilibrium constant for each reaction 1 at 5,000°C
Principles of Modern Chemistry
8th Edition
ISBN:9781305079113
Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Chapter14: Chemical Equilibrium
Section: Chapter Questions
Problem 89AP
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Question
Consider the reaction scheme for degradation of water 1 atm:
Reaction 1:
H2O ↔ H2 + 1/2 O2
Reaction 2:
H20 ↔ 1/2 H2 + OH
Delta G1 = 228,566 kJ/kmol
Delta G2 = 263.270 kJ/kmol
AHr1° = 241,820 kJ/kmol
AHr2° = 281,280 kJ/kmol
A) Calculate the value of the equilibrium constant for each Reaction at 25°C. What does this tell you about the equilibrium composition
B) Estimate the equilibrium constant for each reaction 1 at 5,000°C.
C) Fully set up and explain how you would solve for the equilibrium composition of reaction
mixture which started with 1 mole of water. Include an expression for the equilibrium constant(s) in terms of composition as part of your answer.
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