Question:
PCl\(_5\)(g), PCl\(_3\)(g) and Cl\(_2\)(g) are at equilibrium at 500 K. The equilibrium concentrations of PCl\(_3\), Cl\(_2\) and PCl\(_5\) are respectively 4.0 M, 4.0 M and 2.0 M. Calculate \( K_c \) for the reaction:
\[
{PCl}_5(g) \rightleftharpoons {PCl}_3(g) + {Cl}_2(g)
\]
PCl\(_5\)(g), PCl\(_3\)(g) and Cl\(_2\)(g) are at equilibrium at 500 K. The equilibrium concentrations of PCl\(_3\), Cl\(_2\) and PCl\(_5\) are respectively 4.0 M, 4.0 M and 2.0 M. Calculate \( K_c \) for the reaction:
\[
{PCl}_5(g) \rightleftharpoons {PCl}_3(g) + {Cl}_2(g)
\]
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Remember, for equilibrium expressions, concentrations of products are multiplied and divided by the concentrations of reactants raised to their respective stoichiometric coefficients.
Updated On: Mar 6, 2025
- 2 mol dm\(^3\)
- 4 mol dm\(^3\)
- 6 mol dm\(^3\)
- 8 mol dm\(^3\)
- 10 mol dm\(^3\)
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The Correct Option is D
Solution and Explanation
The expression for \( K_c \) is:
\[
K_c = \frac{[{PCl}_3][{Cl}_2]}{[{PCl}_5]}
\]
Substitute the given equilibrium concentrations:
\[
K_c = \frac{(4.0)(4.0)}{2.0} = \frac{16}{2} = 8 \, {mol dm}^{-3}
\]
Thus, the correct answer is (D).
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