A solution containing `10 g per dm^(3)` of urea (mol.wt. `= 60 g mol^(-1)`) is isotonic with a `5%` ( mass//vol.) of a non-volatile solute. The molecular mass of non-volatile solute is:

A solution containing 10 g per dm^(3) of urea (molecular mass = 60 g mol^(–1) ) is isotonic with a 5% solution of a nonvolatile solute. The molecular mass of this nonvolatile solution is:

A solution containing 10 g per "dm"^3 of urea (molar mass = 60) is isotonic with a 5% (mass by vol.) solution of a non-volatile solute. The molar mass (in g "mol"^(-1) ) of non-volatile solute is

A solution contains 10 g per dm^3 of urea (molar mass 60 "g mol"^(-1) ) is isotonic with 5% solution of non-volatile solute, M_B of solute is

A solution containing 8.6 g urea in one litre was found to be isotonic with 0.5% (mass/vol) solution of an organic, non volatile solute. The molecular mass of organic non volatile solute is:

A solution containing 8.6 g urea in one litre was found to be isotonic with 0.5% (mass/vol) solution of an organic, non volatile solute. The molecular mass of organic non volatile solute is:

A solution of urea contains 8.6 g per litre. It is isotonic with 5% solution of a non-volatile solute. The molecular mass of the solute will be :

A solution of urea contains 8.6 g per litre. It is isotonic with 5% solution of a non-volatile solute. The molecular mass of the solute will be :

A solution containing 8.6g per dm^(3) of urea (mol. wt. 60) was found to be isotonic with a 5 per cent solution of an organic non volatile solute. Calculate molecular weight of the latter.