50 ml of a weak acid , HA , required 30 ml `0.2` M NaOH for the end point . During titration , the pH of acid solution is found to be 5.8 upon addition of 20 ml of the above alkali . The `pK_(a)` of the weak acid is

0.126 g of acid required 20 mL of 0.1 N NaOH for complete neutralisation. The equivalent mass of an acid is

A 50 mL solution of weak base BOH is titrated with 0.1N HCI solution. The pH of solution is found to be 10.04 and 9.14 after the addition of 5.0mL and 20.0 mL of acid respectively. Find out K_(b) for weak base.

The pH of a solution obtained by mixing 50 mL of 0.4 N HCl and 50 mL of 0.2 N NaOH is

If degree of dissociation is 0.01 of decimolar solution of weak acid HA then pK_(a) of acid is :

A 25.0 mL. sample of 0.10 M HCl is titrated with 0.10 M NaOH. What is the pH of the solution at the points where 24.9 and 25.1 mL of NaOH have been added?

A monobasic weak acid solution which is 0.002 M has pH value equal to 5, The percentage ionization value of the acid in the solution will be

The equivalent point in a titration of 40.0mL of a sodium of a weak monoprotic acid occurs when 35.0mL of a 0.10M NaOH solutio has been added. The pH of the solution is 5.5 after the addition of 20.0mL of NaOH solution. What is the dissociation constant of the acid ?

If 20ml of 0.4 N NaOH solution completely neutralise 40ml of a dibasic acid, the molarity of the acid solution is:

12.5 mL of a solution containing 6.0 g of a dibasic acid in 1 L was found to be neutralized by 10 mL a decinormal solution of NaOH . The molecular weight of the acid is

When NaOH solution is gradually added to the solution of weak acid (HA), the pH of the solution is found to be 5.0 at the addition of 10 and 6.0 at further addition of 10 ml of same NaOH. (Total volume of NaOH =20ml). Calculate pK_(a) for HA. [log2 = 0.3]