pH of a 1 L buffer solution changes from 4.5 to 4.6 when 0.2 mole of a strong base is added to it. Its buffer capacity will be

pH of a buffer solution decreases by 0.02 units when 0.12 g of acetic acid is added to 250 mL of a buffer solution of acetic and potassium acetate at 27^(@)C . The buffer capacity of the solution is

A buffer solution is made by mixing a weak acid HA (K_(a) =10^(-6)) with its salt NaA in equal amounts. What should be amount of acid or salt that should be added to make 90 mL of buffer solution in which if 0.1 mole of strong acid are added into 1 L of this buffer solution then change in pH is unity ?

When 0.01 moles of NaOH are added to 1 litre of a buffer solution , its pH changes from 4.745 to 4.832. The buffer capacity is

Why does the pH of an acidic buffer remian constant even when a few drops of a strong acid are added to it?

100mL of a buffer solution contains 0.1M each of weak acid HA and salt NaA . How many gram of NaOH should be added to the buffer so that it pH will be 6 ? (K_(a) of HA = 10^(-5)) .

pH of 1 L 0.1 M HCI solution when 5 g of HF is added

Buffer capacity of a buffer solution is x , the volume of 1 M NaOH added to 100 mL of this solution if the change of pH by 1 is

10 ml of 0.2 M acid is added to 250 ml of a buffer solution with pH = 6.34 and the pH of the solution becomes 6.32 . The buffer capacity of the solution is :

Assertion: The pH of a buffer solution does not change appreciably on additions of a small amount of an acid or a base. Reason: A buffer solution consists of either a weak acid and its salt with a strong base or a weak base its salt with a strong acid.

Consider a buffer solution containing 0.1mol each of acetic and sodium acetate in 1.0L of solution, 0.01mol of NaOH is gradually added to this buffer solution. Calculate the average buffer capacity of the solution and as well as initial and final buffer capacity. [K_(a) = 2 xx 10^(-5)] pK_(a) = 4.7