Explain the effect of each of the following stresses on the position of the equilibrium 3NO (g) ←→N2O(g) +NO2(g) The reaction as written is endothermic. (a) O2(g) is added to the equilibrium mixture without changing volume or temperature. (b) The mixture is compressed at constant temperature. (c) The equilibrium mixture is cooled. (d) An inert gas is pumped into the equilibrium mixture while the total gas pressure and the temperature are kept constant. (e) An inert gas is added to the equilibrium mixture without changing the volume.
Explain the effect of each of the following stresses on the position of the equilibrium 3NO (g) ←→N2O(g) +NO2(g) The reaction as written is endothermic. (a) O2(g) is added to the equilibrium mixture without changing volume or temperature. (b) The mixture is compressed at constant temperature. (c) The equilibrium mixture is cooled. (d) An inert gas is pumped into the equilibrium mixture while the total gas pressure and the temperature are kept constant. (e) An inert gas is added to the equilibrium mixture without changing the volume.
Introductory Chemistry: A Foundation
9th Edition
ISBN:9781337399425
Author:Steven S. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Donald J. DeCoste
Chapter17: Equilibrium
Section: Chapter Questions
Problem 13CR
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Explain the effect of each of the following stresses on the position of the equilibrium
3NO (g) ←→N2O(g) +NO2(g)
The reaction as written is endothermic.
(a) O2(g) is added to the equilibrium mixture without changing volume or temperature.
(b) The mixture is compressed at constant temperature.
(c) The equilibrium mixture is cooled.
(d) An inert gas is pumped into the equilibrium mixture while the total gas pressure and the temperature are kept constant.
(e) An inert gas is added to the equilibrium mixture without changing the volume.
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