A weak acid shows `K_a` = 0.0001. Calculate equilibrium constant for its reaction with strong base.

Dissociation constant of a weak acid is 10^(-6) . What is the value of equilibrium constant for its reaction with strong base

A certain weak acid has K_(a)=10^(-5). If the equilibrium constant for a reaction with a strong base is represented as 1xx10^(y) then find the value of y.

A certain weak acid has a dissociation constant 1.0xx10^(-4) . The equilibrium constant for its reaction with a strong base is :

A certain weak acid has a dissocation constant of 1.0 xx 10^(-4) . The equilibrium constant for its reaction with a strong base is

The energy change accompanying the equilibrium reaction A hArrB is -33.0kJ mol^(-1) . Calculate Equilibrium constant K_a for the reaction at 300 K

The equilibrium constant for the reactions A+B hArr AB is 0.5 at 200K . The equilibrium constant for the reaction AB hArr A+B would be

If the equilibrium constant for the reaction of weak acid HA with strong base is 10^(9) , then pH of 0.1M Na A is:

If the equlibrium constant for the reaction of weak acid HA with strong base is 10^(9) then calculate the pH of 0.1 M NaA.

The equilibrium constant of a reaction is 20.0 . At equilibrium, the reate constant of forward reaction is 10.0 . The rate constant for backward reaction is :

The dissociation constant of a weak acid HA and weak base BOH are 2 xx 10^(-5) and 5 xx 10^(-6) respectively. The equilibrium constant for the neutralization reaction of the two is (ignnore hydrolysis of resulting salt )