The following concentrations were obtain...

The following concentrations were obtained for the formation of `NH_(3)` from `N_(2)` and `H_(2)` at equilibrium at `500 K`. `[N_(2)]=1.5xx10^(-2) M, [H_(2)]=3.0xx10^(-2)M,` and `[NH_(3)]=1.2xx10^(-2)M`. Calculate the equilibrium constant.

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To calculate the equilibrium constant \( K_c \) for the formation of ammonia (\( NH_3 \)) from nitrogen (\( N_2 \)) and hydrogen (\( H_2 \)), we follow these steps: ### Step 1: Write the balanced chemical equation The balanced equation for the formation of ammonia is: \[ N_2(g) + 3H_2(g) \rightleftharpoons 2NH_3(g) \] ...

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The following concentration were obtained for the formation of NH_3 from N_2 and H_2 at equilibrium for the reaction N_2(g) +3H_2(g) hArr 2NH_3(g) [N_2]=1.5 xx 10^(-2) M [H_2]=3.0 xx 10^(-2) M [NH_3]=1.2 xx 10^(-2) M Calculate equilibrium constant.

At 800 K in a sealed vessel for the equilibrium N_(2)(g) + O_(2) (g) hArr 2NO(g), the equilibrium concentrations of N_(2) (g), O_(2)(g) and NO(g) are respectively 0.36xx10^(-3) M, 4.41 xx 10^(-3) M and 1.4 xx 10^(-3) M. Calculate the value of K_(c) for the reaction NO(g) hArr 1//2 N_(2)(g) +1//2 O_(2) (g) at 800 K is :

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