If C( s) is added to the reaction system `C(s)+CO_2(g)hArr2CO(g)` at constant temperature and volume, then the concentration of `CO_2`(g) will _________

The given reaction is carried out in a closed vessel: CaCO_(3)(s)hArr CaO(s)+CO_(2)(g), DeltaH^(0) gt0 . What would be the effect of the following changes on the equilibrium of the reaction if (1) solid CaCO_(3) is added to the reaction system, (2) some amount of CaO is removed from the reaction system, (3) CO_(2)(g) is introduced into the reaction system at constant volume and temperature., (4) temperature is increased, and (5) volume of the reaction vessel is reduced at constant temperature.

For the reaction CaCO_3(s)iffCaO(s)+CO_2(g) which one is correct.

The reaction C(s)+CO_2(g)hArr2CO_2(g) is in a state of equilibrium in a closed vessel at a constant temperature. The equilibrium of the reaction will shift towards left and get re-established if at constant temperature and volume some amount of-

The equilibrium constant (K_c) for the reaction N_2(g) + O_2(g) rarr 2NO (g) at temperature T is 4 xx 10^-4 . The value of K_c for the reaction NO(g) rarr 1/2 N_2(g) + 1/2 O_2(g) at the same temperature is

For the reaction, H_2(g)+CO_2(g)to CO(g)+H_2O(g) occurring in a closed vessel at a particular temperature. the initial concentrations of the reactants are [H_2]=[CO_2]=1 mol*L^(-1) . Before reaching the equilibrium, if x mol*L^(-1) of H_2 has reacted then prove that : x=(sqrt(K_c))/(1+sqrt(K_C)) where K_c =equilibrium constant.