Consider the gas phase reaction NO + %02=NO2 for which AH° = -57.05 kJ and K= 1.54 × 10° at 25°C. 18. What would be the effect on the amount of NO present of compressing the equilibrium system to a smaller volume, while keeping the temperature constant? a. The amount ofNO will increase. b. The amount of NO will decrease. c. The amount of NO will remain the same. d. Cannot be determined. e. Answer depends on the value of K.
Consider the gas phase reaction NO + %02=NO2 for which AH° = -57.05 kJ and K= 1.54 × 10° at 25°C. 18. What would be the effect on the amount of NO present of compressing the equilibrium system to a smaller volume, while keeping the temperature constant? a. The amount ofNO will increase. b. The amount of NO will decrease. c. The amount of NO will remain the same. d. Cannot be determined. e. Answer depends on the value of K.
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Chapter14: Chemical Equilibirum
Section: Chapter Questions
Problem 14.79QP: Use thermochemical data (Appendix C) to decide whether the equilibrium constant for the following...
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![Consider the gas phase reaction NO + %02=NO2 for which AH° = -57.05 kJ and K= 1.54 × 10° at 25°C.
18. What would be the effect on the amount of NO present of compressing the equilibrium system to a smaller
volume, while keeping the temperature constant?
a. The amount ofNO will increase.
b. The amount of NO will decrease.
c. The amount of NO will remain the same.
d. Cannot be determined.
e. Answer depends on the value of K.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F01fc7e81-378c-449d-b29e-55849dfe9053%2Faf387caf-7816-4eb2-8322-cf5fda39151d%2F5840tr.png&w=3840&q=75)
Transcribed Image Text:Consider the gas phase reaction NO + %02=NO2 for which AH° = -57.05 kJ and K= 1.54 × 10° at 25°C.
18. What would be the effect on the amount of NO present of compressing the equilibrium system to a smaller
volume, while keeping the temperature constant?
a. The amount ofNO will increase.
b. The amount of NO will decrease.
c. The amount of NO will remain the same.
d. Cannot be determined.
e. Answer depends on the value of K.
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