Given the reaction 2NOF(g) = 2NO(g) + F,(g) K, is 1200 After the reaction has reached equilibrium, the volume of the container is doubled to V, a) What is the relationship between Q and K at V, at the time of the volume change? i) Q = ¼K ii) Q = ½K iii) Q = 2K iv) Q = 4K

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b) Which of the following is true regarding the concentrations of the reactants and
products to reach equilibrium at V,?
i)
Reactants and products stay the same
ii)
Reactants increase, products decrease
ii)
Reactants decrease, products increase
c) Justify your answer for part (b) using your answer to part (a)
Transcribed Image Text:b) Which of the following is true regarding the concentrations of the reactants and products to reach equilibrium at V,? i) Reactants and products stay the same ii) Reactants increase, products decrease ii) Reactants decrease, products increase c) Justify your answer for part (b) using your answer to part (a)
Given the reaction
2NOF(g) = 2NO(g) + F,(g)
K, is 1200
After the reaction has reached equilibrium, the volume of the container is doubled to V,
a) What is the relationship between Q and K at V, at the time of the volume
change?
i)
Q = ¼K
%3D
i)
Q = ½K
ii)
Q = 2K
iv)
Q = 4K
Transcribed Image Text:Given the reaction 2NOF(g) = 2NO(g) + F,(g) K, is 1200 After the reaction has reached equilibrium, the volume of the container is doubled to V, a) What is the relationship between Q and K at V, at the time of the volume change? i) Q = ¼K %3D i) Q = ½K ii) Q = 2K iv) Q = 4K
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