(A) For the reaction $a A_{(g)} \rightleftharpoons b B_{(g)}$,the equilibrium constant is $K_c = \frac{[B]^b}{[A]^a}$. For the reaction $2a A_{(g)} \r

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(A) For the reaction $a A_{(g)} \rightleftharpoons b B_{(g)}$,the equilibrium constant is $K_c = \frac{[B]^b}{[A]^a}$. For the reaction $2a A_{(g)} \rightleftharpoons 2b B_{(g)}$,the equilibrium constant is $K_c^{\prime} = \frac{[B]^{2b}}{[A]^{2a}}$. Comparing the two expressions,we can see that $K_c^{\prime} = \left( \frac{[B]^b}{[A]^a} \right)^2$. Therefore,$K_c^{\prime} = (K_c)^2$.

Class 11 Chemistry 6-1.Equilibrium (Chemical Equilibrium)Law of equilibrium and Equilibrium constant

Medium

At $T \ K$,the equilibrium constant for the reaction $a A_{(g)} \rightleftharpoons b B_{(g)}$ is $K_c$. If the reaction takes place in the following form $2a A_{(g)} \rightleftharpoons 2b B_{(g)}$,its equilibrium constant is $K_c^{\prime}$. The correct relationship between $K_c$ and $K_c^{\prime}$ is

AP EAMCET 2023 All AP EAMCET

A
$K_c^{\prime} = (K_c)^2$
B
$K_c^{\prime} = (K_c)^{\frac{1}{2}}$
C
$K_c^{\prime} = (K_c)^{-1}$
D
$K_c^{\prime} = K_c$

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6-1.Equilibrium (Chemical Equilibrium)

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Law of equilibrium and Equilibrium constant

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