The equilibrium constant for the reation,
`SO_3(g) hArr SO_2( g) +(1)/(2) O_2(g)`
is `K_c= 4.9 xx 10^(-2) ` The value of `K_c` for the reaction
` 2SO_2(g) + O_2(g) hArr 2SO_3(g), `
will be

The equilibrium constant for the given reaction: SO_(3(g))hArrSO_(2(g))+1//2O_(2(g)) , (K_(c)=4.9xx10^(-2)) The value of K_(c) for the reaction: 2SO_(2(g))+O_(2(g))hArr2SO_(3(g)) , will be :

State the units of K_p and K_c for the reaction. " " 2NO(g) +O_2(g)hArr 2NO_2(g)

The value of equilibrium constant for the reaction [N_2O_5 (g) hArr 2NO_2(g) + 1/2 O_2(g)] is 0.5. The equilibruim constant for the reaction [4NO_2(g) + O_2(g) hArr 2N_2O_5(g)] is

The reaction SO_(2)(g) +1//2O_(2)(g) rarr SO_(3)(g) should be

K_(p)//K_(c) for the reaction CO(g)+1/2 O_(2)(g) hArr CO_(2)(g) is

K_(p)//K_(c) for the reaction CO(g)+1/2 O_(2)(g) hArr CO_(2)(g) is

At 700 K , the equilibrium constant , K_p for the reaction 2SO_3(g) hArr 2SO_2(g) +O_2 (g) is 1.8 xx10^(-3) atm. The value of K_c for the above reaction at the same temperature in moles per litre would be

The equilibrium constant for the reaction N_(2)(g)+O_(2)(g) hArr 2NO(g) at temperature T is 4xx10^(-4) . The value of K_(c) for the reaction NO(g) hArr 1/2 N_(2)(g)+1/2 O_(2)(g) at the same temperature is

The equilibrium constant for the reaction N_(2)(g)+O_(2)(g) hArr 2NO(g) at temperature T is 4xx10^(-4) . The value of K_(c) for the reaction NO(g) hArr 1/2 N_(2)(g)+1/2 O_(2)(g) at the same temperature is

The equilibrium constant for the reaction N_(2)(g)+O_(2)(g) hArr 2NO(g) at temperature T is 4xx10^(-4) . The value of K_(c) for the reaction NO(g) hArr 1/2 N_(2)(g)+1/2 O_(2)(g) at the same temperature is