200 mL of an aqueous solution of a prote...

200 mL of an aqueous solution of a protein contains its 1.26 g. The Osmotic pressure of this solution at 300 K is found to be `2.57 xx 10^(–3)` bar. The molar mass of protein will be (R = 0.083 L bar `mol^(–1) K^(–1)`):

Text Solution

Verified by Experts

The correct Answer is:

`610 g mol^(-1)`

Similar Questions

Explore conceptually related problems

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

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.

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.

Calculate osmotic pressure of 0.1M urea aqueous solution at 300K .

The osmotic pressure of a solution containing 0.1 mol of solute per litre at 300 K is

The osmotic pressure of a solution containing 0.3 mol of solute per litre at 300 K is

The osmotic pressure of a solution containing 0.2 mol of solute per litre at 300 K is

pH of 0.1 M aqueous solution of weak monoprotic acid HA is 2. Calculate osmotic pressure of this solution at 27^(@)C . Take solution constant R="0.082 L atm/K-mol"

The osmotic pressure of a solution containing 0.6 mol of solute per litre at 300 K is

The osmotic pressure of a solution containing 0.1 mol of solute per litre at 273 K is

200 mL of an aqueous solution of a protein contains its 1.26 g. The Osmotic pressure of this solution at 300 K is found to be `2.57 xx 10^(–3)` bar. The molar mass of protein will be (R = 0.083 L bar `mol^(–1) K^(–1)`):

Text Solution

Similar Questions

Recommended Questions