CH_(3)CH_(3)+HNO_(3)675K longrightarrow

CH_(3)CH_(3)+HNO_(3)overset(675K)rarr

Complete the reactions (i) CH_(3)CH_(3) +HNO_(3) overset("vapour phase")to (ii) CH_(4)+ O_(2) underset(723-773k)overset("Copper tube")to (iii) C_(2)H_(5)COONa+ NaOH overset(CaO)to

The primary alcohol 1 - Propanol can be oxidized with Aqueous nitric acid HNO_(3) are required for complete oxidation of 180 gm of 1-Propanol ? CH_(3)CH_(2)CH_(2)OH+HNO_(3) rarr CH_(3)CH_(2)COOH+NO+H_(2)O

The primary alcohol 1 - Propanol can be oxidized with Aqueous nitric acid HNO_(3) are required for complete oxidation of 180 gm of 1-Propanol ? CH_(3)CH_(2)OH+HNO_(3) rarr CH_(3)CH_(2)COOH+NO+H_(2)O

The primary alcohol 1 - Propanol can be oxidized with Aqueous nitric acid HNO_(3) are required for complete oxidation of 180 gm of 1-Propanol ? CH_(3)CH_(2)OH+HNO_(3) rarr CH_(3)CH_(2)COOH+NO+H_(2)O

CH_3CH_3 + HNO_3 overset(675K)to ?

Identify the compounds 'A' and 'B' in the following equetion : CH_(3)-CH_(3)+HNO_(3)overset(423-600K)(to)'A'overset(Sn//conc.HCl)(to)'B'+H_(2)O

Aqueous solution of HNO_(3),CH_(3),CH_(3)COOH , and CH_(3)COOK of identical concentrations are given. The pair (s) of the solution which may form a buffer upon mixing is (are):

Aqueous solution of HNO_(3),CH_(3),CH_(3)COOH , and CH_(3)COOK of identical concentrations are given. The pair (s) of the solution which may form a buffer upon mixing is (are):