To a 25 mL `H_(2)O_(2)` solution excess of an acidified solution of
potassium iodide was added. The iodine liberated required 20 mL of 0.3 N sodium thiosulphate solution Calculate the volume strength of `H_(2)O_(2)` solution.

Calculate the volume strength of an N/10H_(2)O_(2) solution.

The volume strength of 1*5 N H_(2)O_(2) solution is

The volume strength of 1.5 N H_(2)O_(2) solution is

Calculate the strenght of 5 volumes H_(2)O_(2) solution.

The volume strength of 0.92 N H_2O_2 solution is

When 25 " mL of " an aqueous solution of H_2O_2 is titrated with an excess of KI solution in dilute H_2SO_4 , the liberated I_2 required 20 " mL of " 0.3 N Na_2S_2O_3 solution for complete reaction.volume strength of H_2O_2 solution.

When H_(2)O_(2) is added to a acidified solution of K_(2)Cr_(2)O_(7) :

A 5-0cm^(3) solutions of H_(2)O_(2) liberates of 0.508g of iodine from acidified KI solution. Calculate the volume strength of H_(2)O_(2) at N.T.P.

10 ml of H_(2)O_(2) solution on treatment with Kl and titration of liberated l_(2) required 20 mL of 1 N hypo solution. What is the normality of H_(2)O_(2) solution ?

A solution of H_(2)O_(2) labelled as '20 V' was left open. Due to this some, H_(2)O_(2) decomposed and volume strength of the solution decreased . To determine the new volume strength of the H_(2)O_(2) solution, 10 mL of the solution was taken and it was diluted to 100 mL . 10 mL of this diluted solution was titrated against 25 mL of 0.0245 M KMnO_(4) solution under acidic condition. Calculate the volume strength of the H_(2)O_(2) solution .