Standard entropies of , and are , , and respectively. The temperature in Kelvin at which the reaction
will be at equilibrium is (nearest integer):
Standard entropies of , and are , , and respectively. The temperature in Kelvin at which the reaction
will be at equilibrium is (nearest integer):
Correct answer:700
Standard Method
Given: Standard entropies of , and are , and respectively. Also, .
Find: The equilibrium temperature .
At equilibrium, Gibbs free energy change is zero:
So,
First calculate the standard entropy change of reaction:
Substituting the given values:
Now use
Substitute and :
Therefore, the equilibrium temperature is .
Detailed Algebra
Given:
Find: Temperature at which the reaction is at equilibrium.
For the reaction,
Hence,
Evaluate the bracket first:
So,
At equilibrium,
Using
we get
Convert enthalpy to joule per mole:
Substitute:
Therefore, the required nearest integer temperature is 700.
Using entropy values directly without applying stoichiometric coefficients is incorrect, because for and for must multiply their respective standard entropies. Always calculate using the balanced reaction coefficients.
Forgetting to convert from to gives a temperature smaller by a factor of . Keep and in consistent units before substituting into .
Taking the equilibrium condition as or is wrong. At equilibrium for this calculation, the correct condition is , and then you solve for from .
Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.