Question:
\( a \) moles of \( \text{PCl}_5 \) is heated in a closed container to equilibrate
\[
\text{PCl}_5 (g) \rightleftharpoons \text{PCl}_3 (g) + \text{Cl}_2 (g)
\]
at a pressure of \( P \) atm. If \( x \) moles of \( \text{PCl}_5 \) dissociate at equilibrium, then the correct expression for the equilibrium constant is
\( a \) moles of \( \text{PCl}_5 \) is heated in a closed container to equilibrate
\[
\text{PCl}_5 (g) \rightleftharpoons \text{PCl}_3 (g) + \text{Cl}_2 (g)
\]
at a pressure of \( P \) atm. If \( x \) moles of \( \text{PCl}_5 \) dissociate at equilibrium, then the correct expression for the equilibrium constant is
Show Hint
For reactions involving gases, the equilibrium constant is related to the partial pressures of the reactants and products.
Updated On: Jan 12, 2026
- \( \frac{x}{a} = \frac{K_p}{K_p + P} \)
- \( \frac{x}{a} = \frac{K_p + P}{K_p} \)
- \( \frac{x}{a} = \left( \frac{K_p + P}{K_p + P} \right)^{1/2} \)
- \( \frac{x}{a} = \frac{K_p}{P + K_p + P} \)
Show Solution
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The Correct Option is A
Solution and Explanation
Step 1: Equilibrium Expression.
The equilibrium expression for this reaction is given by: \[ K_p = \frac{[\text{PCl}_3][\text{Cl}_2]}{[\text{PCl}_5]} \] Using the mole fractions and pressures at equilibrium, we can derive the expression for \( \frac{x}{a} \).
Step 2: Conclusion.
The correct answer is (A), \( \frac{x}{a} = \frac{K_p}{K_p + P} \).
The equilibrium expression for this reaction is given by: \[ K_p = \frac{[\text{PCl}_3][\text{Cl}_2]}{[\text{PCl}_5]} \] Using the mole fractions and pressures at equilibrium, we can derive the expression for \( \frac{x}{a} \).
Step 2: Conclusion.
The correct answer is (A), \( \frac{x}{a} = \frac{K_p}{K_p + P} \).
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