(A) The relationship between $K_p$ and $K_C$ is given by the formula: $K_p = K_C(RT)^{\Delta n_g}$.For the reaction $H_{2(g)} + I_{2(g)} \rightlefthar

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(A) The relationship between $K_p$ and $K_C$ is given by the formula: $K_p = K_C(RT)^{\Delta n_g}$.For the reaction $H_{2(g)} + I_{2(g)} \rightleftharpoons 2 HI_{(g)}$,the change in the number of moles of gaseous species is calculated as $\Delta n_g = n_p - n_r = 2 - (1 + 1) = 0$.Substituting this into the formula,we get $K_p = K_C(RT)^0$.Since any non-zero value raised to the power of $0$ is $1$,we have $K_p = K_C \times 1 = K_C$.

Class 11 Chemistry 6-1.Equilibrium (Chemical Equilibrium)Kp and Kc Relationship

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For the given equilibrium reaction $H_{2(g)} + I_{2(g)} \rightleftharpoons 2 HI_{(g)}$,choose the correct equation to calculate $K_p$.

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A
$K_p = K_C$
B
$K_p = K_C(RT)$
C
$K_p = K_C(RT)^{-1}$
D
$K_p = K_C(RT)^2$

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6-1.Equilibrium (Chemical Equilibrium)

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Kp and Kc Relationship

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For the given equilibrium reaction $H_{2(g)} + I_{2(g)} \rightleftharpoons 2 HI_{(g)}$,choose the correct equation to calculate $K_p$.

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For the reaction: $H_{2(g)} + CO_{2(g)} \rightleftharpoons CO_{(g)} + H_2O_{(g)}$,if the initial concentration of $[H_2] = [CO_2] = 1 \ M$ and $x \ mol/L$ of hydrogen is consumed at equilibrium,the correct expression for $K_c$ is:

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