(B) The relationship between standard Gibbs free energy change and the equilibrium constant is given by the formula:$\Delta_{r}G^{\Theta} = -RT \ln K_

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$-8.314 \ J \ mol^{-1} \ K^{-1} \times 300 \ K \times \ln(2 \times 10^{13})$

(B) The relationship between standard Gibbs free energy change and the equilibrium constant is given by the formula:$\Delta_{r}G^{\Theta} = -RT \ln K_{c}$Given values:$R = 8.314 \ J \ mol^{-1} \ K^{-1}$$T = 300 \ K$$K_{c} = 2 \times 10^{13}$Substituting these values into the equation:$\Delta_{r}G^{\Theta} = -8.314 \ J \ mol^{-1} \ K^{-1} \times 300 \ K \times \ln(2 \times 10^{13})$

Class 11 Chemistry 6-1.Equilibrium (Chemical Equilibrium)Standard free energy

Medium

Hydrolysis of sucrose is given by the following reaction:
$\text{Sucrose} + H_{2}O \rightleftharpoons \text{Glucose} + \text{Fructose}$
If the equilibrium constant $(K_{c})$ is $2 \times 10^{13}$ at $300 \ K$,the value of $\Delta_{r}G^{\Theta}$ at the same temperature will be:

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A
$-8.314 \ J \ mol^{-1} \ K^{-1} \times 300 \ K \times \ln(4 \times 10^{13})$
B
$-8.314 \ J \ mol^{-1} \ K^{-1} \times 300 \ K \times \ln(2 \times 10^{13})$
C
$8.314 \ J \ mol^{-1} \ K^{-1} \times 300 \ K \times \ln(2 \times 10^{13})$
D
$8.314 \ J \ mol^{-1} \ K^{-1} \times 300 \ K \times \ln(3 \times 10^{13})$

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6-1.Equilibrium (Chemical Equilibrium)

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Hydrolysis of sucrose is given by the following reaction:$\text{Sucrose} + H_{2}O \rightleftharpoons \text{Glucose} + \text{Fructose}$If the equilibrium constant $(K_{c})$ is $2 \times 10^{13}$ at $300 \ K$,the value of $\Delta_{r}G^{\Theta}$ at the same temperature will be:

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Which of the following equations relates the temperature of a reaction with $\Delta H^{\circ}$ and $\Delta S^{\circ}$ at equilibrium?

The correct relationship between the equilibrium constant $(K)$ and the standard Gibbs free energy change $(\Delta G^o)$ for a reaction is .......

For the following reaction at $50^\circ$ $C$ and at $2 \text{ atm}$ pressure, $2N_2O_5(g) \rightleftharpoons 2N_2O_4(g) + O_2(g)$. $N_2O_5$ is $50\%$ dissociated. The magnitude of standard free energy change at this temperature is $x$. $x = . . . . . . \text{ J mol}^{-1}$.

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Hydrolysis of sucrose is given by the following reaction:
$\text{Sucrose} + H_{2}O \rightleftharpoons \text{Glucose} + \text{Fructose}$
If the equilibrium constant $(K_{c})$ is $2 \times 10^{13}$ at $300 \ K$,the value of $\Delta_{r}G^{\Theta}$ at the same temperature will be: