Each mole of substance A (Molar mass =720 ) required 10 moles of water for complete hydrolysis and gives B,C and D as the hydrolysed product in a molar ratio of 2:3:2. if molecular mass of B is 40 and it contributes 40% of total mass of hydrolysed product then moles of C obtained will be

Each moleof substance A (molar mass = 720) requires 10moles of water for complete hydrolysis and gives B,C and D as the hydrolysed products in a molar ratio of 2:3:2 . If molecular mass of B is 40 and it contributes 40^(@) of total mass of hydrolysed product then moles pof C obtained will be

A decapeptide(M. mass = 796) on complete hydrolysis gives glycine, alanine and phenylaline. Glycine contributes 47% to the total mass of hydrolysed products. Calculate the number of glycine units present in the decapeptide.

A decapeptide (Molecular weight 796) on complete hydrolysis gives glycine (Molecular weight 75), alanine and phenylanine. Glycine contributes 47.0 % to the total weight of the hydrolysed products. The number of glycine units present in the decapeptide is

The mole fraction of C_2H_5OH (Molar mass = 46) in 5 molal aqueous ethyl alcohol solution is

The vapour density of a mixture of gas A (Molecular mass = 40) and gas B (Molecular mass = 80) is 25. Then mole % of gas B in the mixture would be

There are five isomeric alkenes (A, B, C, D, and E) that require 1 mol of H_(2) per mole of alkene for hydrogenation and give the same product (F) on hydrogenation. F is an alkane having the lowest molecular mass and is opticalar mass and is optically active. Write the structures of the compounds from A to F.

There are five isomeric alkenes (A, B, C, D, and E) that require 1 mol of H_(2) per mole of alkene for hydrogenation and give the same product (F) on hydrogenation. F is an alkane having the lowest molecular mass and is opticalar mass and is optically active. Write the structures of the compounds from A to F.