1 ml of `H_(2)O_(2)` solution given 10 ml of `O_(2)` at NTP. It is :

Calculate the volume strength of H_(2)O_(2) solution if 50 mL of H_(2)O_(2) solution is diluted with 50 mL of H_(2)O_(2) . 20 mL of this diluted solution required 40 mL of M//60 K_(2)Cr_(2)O_(7) solution in presence of H_(2)O_(2) for complete reaction.

Assertion If 10 mL of a H_(2)O_(2) solution required 8.00 mL of 0.02 M acidified KMnO_(4) solution for complete oxidation, 12.50 mL of same H_(2)O_(2) will oxidise completely to 5.00 mL of 0.10 M Na_(2)C_(2)O_(4) solution. Reason H_(2)O_(2) act as both oxidising as well as reducing agent.

Volume of 0.1M KMnO_(4) solution required to oxidise 20ml of 0.5M of H_(2)O_(2) solution in presence of H_(2)SO_(4) is? (A) 80ml, (B)40ml (C)20ml (D) 10ml

A sample of 28 mL of H_(2) O_(2) (aq) solution required 10 mL of 0.1 M KMnO_(4) (aq) solution for complete reaction in acidic medium. What is the valume strength of H_(2)O_(2) ? X

20mL of H_(2)O_(2) after acidification with dilute H_(2)SO_(4) required 30mL of N/12 KMnO_(4) for complete oxidation. Calculate the percentage of H_(2)O_(2) in the solution. Equivalent mass of H_(2)O_(2)=17 .

20mL of sample of H_(2)O_(2) gives 400mL of oxygen measured at NTP. The sample should be labelled as: