`300 cm^(3)` of an aqueous solution contains `1.26 g` a polymer. The osmotic pressure of such solution at `300 K` is found to be `1.26xx10^(-3)` bar. Calculate the molar mass of the polymer.

200cm^(3) of an aqueous solution contains 1.26g of a polymer. The osmotic pressure of such solution at 300K is found to be 2.57 xx 10^(-3) bar. Calculate the molar mass of the polymer.

200 cm^(3) of an aqueous solution of a protein contains 1.26 g of protein. The osmotic pressure of such a solution at 300 K is found to be 2.57 xx 10^(-3) bar. Calculate the molar mass of the protein. (R = 0.083 L bar "mol"^(-1)K^(-1) )

200cm^(3) of aqueous solution of pretein contains 1.26 g of the protein. The osmotic pressure of such a soolution at 300 K is found to be 2.57xx10^(-3) bar. Calculater the molar mass of the protein.

200 cm^(3) of an aqueous solution of a protein contains 1.26 g of the protein. The osmotic pressure of such a solution at 300 K is found to be 2.57 xx10^(-3) bar. Calculate the molar mass of the protein.

200 cm^(3) of an aqueous solution of a protein contains 1.26 g of the protein. The osmotic pressure of such a solution at 300 K is found to be 2.57 xx10^(-3) bar. Calculate the molar mass of the protein.

200 cm^3 of an aqueous solution of a protein contains 1.26g of the protein . The osmotic pressure of such a solution at 300K is found to be 2.7 xx 10^-3 bar. Calculate the molar mass of the protein (R=0.083 L bar mol^-1 K^-1 )

2000 cm^3 of an aqueous solution of a protein contains 1.26 g of the protein. The osmotic pressure of such a solution at 300K is found to be 2.57 … 10^(-3) bar. Calculate the molar mass of the protein.