In Q.No .5, if the mixture of gases was allowed to come to quilibrium .The volume of the reaction vessel was then rapidly increased by a factor of two .As a result of the change the reaction quotient `(Q_(c))` would:

The rate of a gaseous reaction is equal to k[A][B]. The volume of the reaction vessel containing these gases is reduced by one fourth of the initial volume. The rate of the reaction would be

The reaction 2A + B_(2) to 2AB is an elementary reaction. For a certain quantity of reactants, if the volume of the reaction vessel is reduced by a factor of 3, the rate of the reaction increases by a factor of _________ . (Round off to the Nearest Integer).

The Gibbs energy change and standard Gibbs energy change for a reaction are same if the reaction quotient Q has value equal to :

H_2+l_2 rarr 2Hl (An elementary reaction) of second order If the volume of the container containing the gaseous mixture is increased to two time, then final rate of the reaction.

Write a relation between DeltaG and Q and deifine the meaning of each term and answer the following : Why a reaction proceeds forward when QltK and no net reaction occure when Q=K . Explain the effect of increase in presure in terms of reaction quotient Q for the reaction : CO(g)+3H_2(g)hArrCH_4(g)+H_2O(g)

The equilibrium constant for a reaction is K, and the reaction quotient is Q . For a particular reaction mixture , the ration (K)/(Q) is 0.33. this means that:

A reaction A +B rarr C+D +q is found to have a positive entropy change, the reaction will be: