At 500K, Kp=1.8 times 10^-2 atm for the ...

At 500K, `K_p=1.8 times 10^-2` atm for the reaction `2NOCL(g) leftrightarrow 2NO_((g)) +CL_2(g)` calculate the `K_C` at the same temperature.

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To calculate \( K_C \) from \( K_P \) for the reaction \( 2 \text{NOCl}(g) \leftrightarrow 2 \text{NO}(g) + \text{Cl}_2(g) \) at 500 K, we can use the relationship between \( K_P \) and \( K_C \): \[ K_P = K_C (RT)^{\Delta n} \] Where: - \( R \) is the ideal gas constant (0.0821 L·atm/(K·mol)) ...

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At 500K, `K_p=1.8 times 10^-2` atm for the reaction `2NOCL(g) leftrightarrow 2NO_((g)) +CL_2(g)` calculate the `K_C` at the same temperature.

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