Equilibrium | Diffrence B/W Q And K

Mass action rato or reaction quotient Q for a reaction can be calculate using the law of masss action A(g)+B(g) hArr C(g)+D(g) Q=([C][D])/([A][B]) The value of Q decides whether the reaction is at equilibrium or not. At equilibrium, Q=K For an equilibrium process, Q ne K when Q gt K , reaction will favour backward direction and when Q lt K , it will favour direction. Answer the following questions: In the reaction: NH_(4)Cl(g) hArr NH_(3)(g)+HCl(g) a graph is plotted to show that the variation or the rate of forward and backward reaction against time. Which of following is correct?

For A+BhArrC+D , the equilibrium constant is K_(1) and for C+DhArA+B , the equilibrium constant is K_(2) . The correct relation between K_(1) and K_(2) is

Mass action rato or reaction quotient Q for a reaction can be calculate using the law of masss action A(g)+B(g) hArr C(g)+D(g) Q=([C][D])/([A][B]) The value of Q decides whether the reaction is at equilibrium or not. At equilibrium, Q=K For an equilibrium process, Q ne K when Q gt K , reaction will favour backward direction and when Q lt K , it will favour direction. Answer the following questions: In the following reaction: 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g) the equilibrium is not attained. The rate of forward reaction is greater than that of backward reaction. Thus, which of the following is the correct relation between K_(p) and Q_(p) ?

At 25^(@) C the equilibrium constant K,and K_(2) of two reaction are 2NH_(3)hArrN_(2)+3H_(2) ,K_(1) (1)/(2)N_(2)+(3)/(2)H_(2)hArrNH_(3),K_(2) The relation b//w two equilibrium constant is :-

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:

For a hypothetical reaction 4A+5B hArr 4P +6Q . The equilibrium constant K_(c ) has units.

The equilibrium constant K_(p_(2)) and K_(p_(2)) for the reactions A hArr 2B and P hArr Q+R , respectively, are in the ratio of 2:3 . If the degree of dissociation of A and P are equal, the ratio of the total pressure at equilibrium is,

In the equilibrium constant for AhArr B+C is K_(eq)^((1)) and that of B+C=P is K_(eq)^((2)) , the equilibrium constant for AhArr P is :