The heat of reaction for an endothermic reaction at constant volume in equilibrium is 1200 calories more than that at constant pressure at 300 k . Calculate the ratio of equilibrium constant `K_p and K_c` .

The heat of reaction for an endothermic reaction at constant volume in equilibrium is 1200 cal more than al constant pressure at 300K, then

At equilibrium, the value of equilibrium constant K is

For a reaction, aA+bBhArrcC+dD , the reaction quotient Q=([C]_(0)^(c)[D]_(0)^(d))/([A]_(0)^(a)[B]_(0)^(b)) , where [A]_(0) , [B]_(0) , [C]_(0) , [D]_(0) are initial concentrations. Also K_(c)=([C]^(c)[D]^(d))/([A]^(a)[B]^(b)) where [A] , [B] , [C] , [D] are equilibrium concentrations. The reaction proceeds in forward direction if Q lt K_(c) and in backward direction if Q gt K_(c) . The variation of K_(c) with temperature is given by: 2303log(K_(C_(2)))/(K_(C_(1)))=(DeltaH)/(R)[(T_(2)-T_(1))/(T_(1)T_(2))] . For gaseous phase reactions K_(p)=K_(c)(RT)^(Deltan) where Deltan= moles of gaseous products - moles of gaseous reactants. Also -DeltaG^(@)=2.303RT log_(10)K_(c) . The heat or reaction for an endothermic reaction, in equilibrium is 1200 cal , at constant volume is more than at constant pressure at 300 K . The ratio of K_(p)//K_(c) is:

For a reaction aA(g)hArrbB(g) at equilibrium, the heat of reaction at constant volume is 1500 cal more than at constant pressure. If the temperature is 27^(@)C then

Heat of reaction A(s) + B(g) rarr 2C(g) is 40 kJ at 300 K and constant volume. Hence, heat of reaction at constant pressure and at 300 K is,

An acid reacts with glycerine to form complex and equilibrium is established. If the heat of reaction at constant volume for this reaction is 1200 cal more than at constant pressure and the temperature is 300 K, then which of the following expression is true?

The equilibrium constant of a reaction is 300 , if the volume of the reaction flask is tripled, the equilibrium constant will be

For a gaseous reaction 2B rarr A , the equilibrium constant K_(p) is ……… to // than K_(c) .

In which of the following reactions, the concentration of product is higher than the concentration of reactant at equilibrium? (K = equilibrium constant)

For a reversible reaction at 298 K the equilibrium constant K is 200. What is value of DeltaG^(@) at 298 K ?