Use the References to access important values if needed for this question. Consider the following system at equilibrium where AH° = -198 kJ/mol, and K. = 34.5 , at 1150 K. 2 so2 (g) + 02 (g)=2 s03 (g) When 0.32 moles of SO3 (g) are removed from the equilibrium system at constant temperature: The value of K. remains the same. ♥ The value of Q. is greater than ♥ Kç- The reaction must Orun in the forward direction to restablish equilibrium. run in the reverse direction to restablish equilibrium. O remain the same. It is already at equilibrium. The concentration of 02 will increase.

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Use the References to access important values if needed for this question.
Consider the following system at equilibrium where AH° = -198 kJ/mol, and K. = 34.5 , at 1150 K.
2 so2 (g) + 02 (g)=2 s03 (g)
When 0.32 moles of SO3 (g) are removed from the equilibrium system at constant temperature:
The value of K. remains the same. ♥
The value of Q. is greater than ♥ Kç-
The reaction must
Orun in the forward direction to restablish equilibrium.
run in the reverse direction to restablish equilibrium.
O remain the same. It is already at equilibrium.
The concentration of 02 will increase.
Transcribed Image Text:Use the References to access important values if needed for this question. Consider the following system at equilibrium where AH° = -198 kJ/mol, and K. = 34.5 , at 1150 K. 2 so2 (g) + 02 (g)=2 s03 (g) When 0.32 moles of SO3 (g) are removed from the equilibrium system at constant temperature: The value of K. remains the same. ♥ The value of Q. is greater than ♥ Kç- The reaction must Orun in the forward direction to restablish equilibrium. run in the reverse direction to restablish equilibrium. O remain the same. It is already at equilibrium. The concentration of 02 will increase.
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