A weak monobasic (0.1 M) has a pH of 3 at a particular tempertaure `(25^(@)C)` When this acid is neutralised by strong base (NaOH) , what is the value equilibrium constant at equivalent point at `25^(@)C`

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

A 1.025 g sample containing a weak acid HX (mol. Mass=82) is dissolved in 60 mL. water and titrated with 0.25 M NaOH. When half of the acid was neutralised the pH was found to be 5.0 and at the equivalence point the pH is 9.0. Calculate mass precentage of HX in sample : a. 50% b. 75% c. 80% d.None

The pH of a 2 M solution of a weak monobasic acid (HA) is 4. What is the value of the Van’t Hoff factor?

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

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

What will be the osmotic pressure of 0.1 M monobasic acid its pH is 2 at 25^(@)C ?

An organic monobasic weak acid is 50 % neutralised by adding NaOH. The pH of the solution is 5 . Acid dissociation constant for organic acid will be :

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

During the titration of a weak diprotic acid (H_(2)A) against a strong base (NaOH) , the pH of the solution half-way to the first equivalent point and that at the first equivalent point are given respectively by:

A weak base BOH is titrated with strong acid HA . When 10mL of HA is added, the pH is 9.0 and when 25mL is added, pH is 8.0 . The volume of acid required to reach the equivalence point is