The equilibrium composition for the reaction at is given below:
, ,
If of is added at the same temperature, the equilibrium concentrations of is _____ × .
The equilibrium composition for the reaction at is given below:
, ,
If of is added at the same temperature, the equilibrium concentrations of is _____ × .
Correct answer:49
Standard Method
Given:
Find: The value in _____ × for the new equilibrium concentration of .
First calculate the equilibrium constant:
After adding chlorine, let be the concentration of that reacts further. Then the new equilibrium concentrations are:
Using the equilibrium expression again:
Solving this gives:
Therefore,
Now express it in the required form:
So,
Therefore, the required numerical value is 49.
Detailed Algebra
Given: for .
Find: New equilibrium concentration of after adding chlorine.
Let the forward reaction proceed by . Then:
Substitute into the equilibrium expression:
Rearrange:
From the extracted solution, solving this gives approximately:
Hence,
Converting:
Therefore, the equilibrium concentration corresponds to 49 in the blank.
Using the added directly in the equilibrium expression without first updating the concentration table is incorrect. After addition, write the new concentrations as , , and before applying .
Assuming that changes after adding reactant is wrong. At the same temperature, remains constant, so the same value must be used again.
Reporting directly as the final answer is incomplete. The question asks for the coefficient in the form _____ × , so convert it to and round to 49.
Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.