`H_(2)C_(2)O_(4).2H_(2)O` (Mol wt =126) can be oxidised into`CO_(2)` by acidified `KMnO_(4)`. 6.3 gms of oxalic acid can not be oxidised

C_(4)H_(4)O_(4) can be

(A) : To prepare aldehydes from primary alcohols , acidified KMnO_4 " or " K_(2) Cr_(2)O_7 is not used. (R) : Strong oxidising agents like acidified KMnO_(4) " or " K_(2)Cr_(2)O_(7) oxidise aldehydes to carboxylic acids .

The weight of KMnO_4 that can oxidise 100 ml of. 0.2M oxalic acid in acidic medium is

C_(2)H_(4)+H_(2) to C_(2)H_(6) In terms of redox reaction notations A) C_2H_4 is reduced B) H_2 is oxidised

H_(2)O_(2)+H_(2)O+1/2O(2) (1st order). Time to time the H_(2)O_(2) solution is titrated with standard acidified KMnO_(4) . The data is Time (min ) " "0" "15 KMnO_(4)"consumed")" "16ml" "2ml What is half life in minutes?

50 ml H_(2)O_(2) is completely oxidised by 10 ml, 0.2 N KMnO_(4) solution in acidic medium. The strength of hydrogen peroxide is

H_(2)O_(2) oxidised the following

.4 sample of H_(2)O_(2) solution containing H_(2)O_(2) by weight requires x ml of KMnO_(4) solution for completed oxidation under acidic condition. The formality of KMnO_(4) solution is