If the equilibrium constant for the reaction of weak acid `HA` with a strong base is `10^(9)`,then determining `pH` of `0.1MNaA` solution.

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.

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:

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.

At half - equivalence point in the titration of weak acid by a strong base , pH = …………..

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

The heat of neutralization for a strong acid by a strong base is a constant

The dissociation constant of a weak acid HA is 1.2 xx 10 ^(-10) Calculate its pH in a 0.1 M solutions

The following curve shows the change of pH during the course of titration of weak acid HA with a strong base. At which point in the titration curve is the concentration of acid equal to that of its conjugate base.

pH of a salt of a strong base with weak acid

Which of the following pH curve represent the titration of weak acid and strong base (dotted line show equivalence point)?