A reaction `S_((g)) hArr 4S_(2(g))` is s carried out by taking 2 moles of `S_(8(g))` and 0.2 mole of `S_(2(g))` in a reaction vessel of l lit. Which one is not correct. If `K_(c) = 6.3 xx 10^(-6)`.

The equilibrium constant K_(c) for the reaction P_(4(g)) hArr 2P_(2(g)) is 1.4 at 400^(@) C. Suppose that 3 moles of P_(4(g)) and 2 moles of P_(2(g)) are mixed in 2 litre container at 400^(@) C. What is the value of reaction quotient (Q_(c)) ?

An equilibrium mixture for the reaction, 2H_(2)S(g) hArr 2H_(2) (g) + S_(2) (g) has 1 mole of H_(2) S, 0.2 mole of H_(2) and 0.8 mole of S_(2) in 2 L flask . The value of K_(C) in mol L^(-1) is

In the reaction X_((g))+ Y_((g)) hArr 2Z_((g)) , 2 moles of X, I mole of Y and I mole of Z are placed in a 10 lit vessel and allowed to reach equilibrium. If final concentration of Z is 0.2 M, then K_(c) . for the given reaction is

For the reaction A_((g)) + 3B_((g)) hArr 2C_((g)) at 27^(@)C .2 mole of A, 4 moles of B and 6 moles of C are present in 2 lit vessel. If K_(c) for the reaction is 1.2, the reaction will proceed in

The equilibrium constant for the reaction , H_(2) (g) + CO_(2) (g) hArr H_(2) O (g) + CO (g) is 16 at 1000^(@) C . If 1.0 mole of H_(2) and 1.0 mole of CO_(2) are placed in one litre flask , the final equilibrium concentration of CO at 1000^(@) C is

In the preparation of MgO, the reaction is MgCO_(3)(s) hArr =MgO(s) + CO_(2)(g) Experiments carried out between 50^(@) C and 950^(@) C led to a set of K_(p) values fitting an empirical equation log K_(p) = 7.310 - (8500)/(T) . If the reaction is carried out in quiet air, then

In the reaction C_((s)) + CO_(2(g)) hArr CO_(2(g)) , the equilibrium pressure is 6.75 atm. If 50% of CO_(2) reacts then the find value of K_(p) .

The equilibrium conatant for the reaction H_(2(g)) + I_(2(g)) hArr 2HI_((g)) is 2 at a certain temperature. The equilibrium concentrations of H_(2) and HI are 2 mole . lit^(-1) . What is the equilibrium concentration (in mole lit^(-1) ) of I_(2) ?