(a)
Interpretation: Using the values from Appendix E, the equilibrium constant,
Concept introduction:
For a reaction, change in standard Gibbs free energy is calculated as follows:
Here,
The change in standard Gibbs free energy is related to equilibrium constant as follows:
Here, R is Universal gas constant, T is absolute temperature and K is equilibrium constant of the reaction.
(a)
Answer to Problem 12.78PAE
Solution:
Explanation of Solution
The given reaction is as follows:
First step is to calculate the value of
From the formula:
From the calculated value of
The absolute temperature is 298 .15 K, putting all the values,
(b)
Interpretation: Using the values from Appendix E, the equilibrium constant,
Concept introduction:
For a reaction, change in standard Gibbs free energy is calculated as follows:
Here,
The change in standard Gibbs free energy is related to equilibrium constant as follows:
Here, R is Universal gas constant, T is absolute temperature and K is equilibrium constant of the reaction.
(b)
Answer to Problem 12.78PAE
Solution:
Explanation of Solution
The given reaction is as follows:
From the formula:
From the calculated value of
The absolute temperature is 298 .15 K, putting all the values,
(c)
Interpretation: Using the values from Appendix E, the equilibrium constant,
Concept introduction:
For a reaction, change in standard Gibbs free energy is calculated as follows:
Here,
The change in standard Gibbs free energy is related to equilibrium constant as follows:
Here, R is Universal gas constant, T is absolute temperature and K is equilibrium constant of the reaction.
(c)
Answer to Problem 12.78PAE
Solution:
Explanation of Solution
The given reaction is as follows:
From the formula:
From the calculated value of
The absolute temperature is 298 .15 K, putting all the values,
(d)
Interpretation: Using the values from Appendix E, the equilibrium constant,
Concept introduction:
For a reaction, change in standard Gibbs free energy is calculated as follows:
Here,
The change in standard Gibbs free energy is related to equilibrium constant as follows:
Here, R is Universal gas constant, T is absolute temperature and K is equilibrium constant of the reaction.
(d)
Answer to Problem 12.78PAE
Solution:
Explanation of Solution
The given reaction is as follows:
From the formula:
From the calculated value of
The absolute temperature is 298 .15 K, putting all the values,
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Chapter 12 Solutions
Bundle: Chemistry for Engineering Students, Loose-Leaf Version, 4th + OWLv2 with MindTap Reader with Student Solutions Manual, 1 term (6 months) Printed Access Card
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