Predict and calculate the effect of temperature change on an equilibrium system. Close Problem CO reacts with Cl₂ to form COCI₂. The equilibrium constant, Kp, for this reaction is 0.200 at 873 K. CO(g) + Cl₂(g) cocl₂(g) The standard enthalpy change for this reaction (AH°) is -108 kJ/mol. (a) Predict the effect on the production of COCI₂ when the temperature of the equilibrium system is decreased. (b) Use the at 785 K. production is favored production is disfavored Kat 785 K = V stimate the equilibrium constant for this reaction

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Predict and calculate the effect of temperature change on an equilibrium system.
Close Problem
CO reacts with Cl₂ to form COCI₂. The equilibrium constant, Kp, for this reaction is
0.200 at 873 K.
CO(g) + Cl₂(g) cocl₂(g)
The standard enthalpy change for this reaction (AH°) is -108 kJ/mol.
(a) Predict the effect on the production of COCI₂ when the temperature of the
equilibrium system is decreased.
4
(b) Use the van't Hoff equation to estimate the equilibrium constant for this reaction
at 785 K.
K at 785 K =
Transcribed Image Text:Predict and calculate the effect of temperature change on an equilibrium system. Close Problem CO reacts with Cl₂ to form COCI₂. The equilibrium constant, Kp, for this reaction is 0.200 at 873 K. CO(g) + Cl₂(g) cocl₂(g) The standard enthalpy change for this reaction (AH°) is -108 kJ/mol. (a) Predict the effect on the production of COCI₂ when the temperature of the equilibrium system is decreased. 4 (b) Use the van't Hoff equation to estimate the equilibrium constant for this reaction at 785 K. K at 785 K =
Predict and calculate the effect of temperature change on an equilibrium system.
Close Problem
CO reacts with Cl₂ to form COCI₂. The equilibrium constant, Kp, for this reaction is
0.200 at 873 K.
CO(g) + Cl₂(g) cocl₂(g)
The standard enthalpy change for this reaction (AH°) is -108 kJ/mol.
(a) Predict the effect on the production of COCI₂ when the temperature of the
equilibrium system is decreased.
(b) Use the
at 785 K.
production is favored
production is disfavored
Kat 785 K
=
V
stimate the equilibrium constant for this reaction
Transcribed Image Text:Predict and calculate the effect of temperature change on an equilibrium system. Close Problem CO reacts with Cl₂ to form COCI₂. The equilibrium constant, Kp, for this reaction is 0.200 at 873 K. CO(g) + Cl₂(g) cocl₂(g) The standard enthalpy change for this reaction (AH°) is -108 kJ/mol. (a) Predict the effect on the production of COCI₂ when the temperature of the equilibrium system is decreased. (b) Use the at 785 K. production is favored production is disfavored Kat 785 K = V stimate the equilibrium constant for this reaction
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