100 mg of a protein was disoved in just enough water to make 10 mL of the solution. If the solution has an osmotic pressure of 13.3 mm Hg at `25^(@)C`, what is the mass of prtein `(R=0.0821 L atm mol^(-1)K^(-1))`

(a) Define the following terms: (i) Mole fraction (ii) Van't Hoff factor (b) 100mg of a protein is dissolved in enough water to make 10.0 mL of a solution. If this solution has an osmotic pressure of 13.3 mm Hg at 25^(@)C , what is the molar mass of protein? (R=0.821 L "atom mol"^(-1)K^(-1) "and" 760mm Hg=1 atm.)

(a) Define the following terms: (i) Mole fraction (ii) Van't Hoff factor (b) 100mg of a protein is dissolved in enough water to make 10.0 mL of a solution. If this solution has an osmotic pressure of 13.3 mm Hg at 25^(@)C , what is the molar mass of protein? (R=0.821 L "atom mol"^(-1)K^(-1) "and" 760mm Hg=1 atm.)

100 mg of a protein is dissolved in just enough water to make 10.0 mL of solution. If this solution has an osmotic pressure of 13.3mm Hg at 25^@C , what is the molar mass of the protein? (R = 0.0821L atm mol^-1 K^-1 and 760mm Hg = 1atm)

A solution containing 30 g of protein per litre exerts an osmotic pressure of 9.4 mm Hg at 25^@C . What is the molecular mass of protein ?

The volume of 2.8g of CO at 27^(@)C and 0.821 atm pressure is (R=0.0821 lit. atm mol^(-1)K^(-1))

The volume of 2.8g of CO at 27^(@)C and 0.821 atm pressure is (R=0.0821 lit. atm mol^(-1)K^(-1))

The volume of 2.8g of CO at 27^(@)C and 0.821 atm pressure is (R=0.0821 lit. atm mol^(-1)K^(-1))

At 298 K, 1000 cm^(3) of a solution cocontaining 4.34 g solute shows osmotic pressure of 2.55 atm. What is the molar mass of solute ? (R=0.0821Latm K_(-1)mol^(-1))

At 298 K, 1000 cm^(3) of a solution cocontaining 4.34 g solute shows osmotic pressure of 2.55 atm. What is the molar mass of solute ? (R=0.0821Latm K_(-1)mol^(-1))