Calculate the vapour pressure of an aqueous solution of `1.0` molal glucose solution at `100^(@)C`.

Assuming ideal behaviour, calculate the vapour pressure of 1.0 molal solution of a non-volatile molecular solute in water at 50^@C . The vapour pressure of water at 50^@C is 0.122 atm.

Calculate the vapour pressure lowering of a 0.1 m aqueous solution of non-electrolyte at 75@C . DeltaH = 9.720 Kcal mol^(-1) , P_(2) = 742.96 torr

Calculate the vapour pressure of 10% (w/w) aqueous glucose solution at 30^@C , if vapour pressure of pure water is 31.8 mm.

The lowering of vapour pressure due to a solute in a 1 m aqueous solution at 100^(@)C is

Urea forms an ideal solution. Determine the vapour pressure of an aqueous solution containing 10 per cent by mass of urea at 40^(@)C (Vapour pressure of water at 40^(@)C=55.3mm Hg ).

Lowering of vapour pressure of an aqueous solution of a non-volatile non-electrolyte 1 m aqueous solution at 100^(@)C is,

Calculate relative lowering of vapour pressure of 0.161 molal aqueous solution

The relative lowering of vapour pressure of an aqueous solution containing a non-volatile solute, is 0.0125. The molality of the solution is

The relative lowering of vapour pressure of an aqueous solution containing a non-volatile solute, is 0.0125. The molality of the solution is

Assuming ideal behaviour, calculate the pressure of 1.0 molal solution of a non-volatile molecular solute in water at 50@C . The vapour presure of water at 50@C is 0.222 atm .