A solution prepared by dissolving 8.95 m...

A solution prepared by dissolving 8.95 mg of a given fragment in 35.0 mL of has an osmotic pressure of 0.335 torr at `25^(@)C`. Assuming that the given fragment is non-electolyty. Calculate its molar mass.

Text Solution

AI Generated Solution

To calculate the molar mass of the given fragment using the osmotic pressure, we can follow these steps: ### Step-by-Step Solution: 1. **Convert Osmotic Pressure from Torr to ATM:** \[ \text{Osmotic Pressure (π)} = 0.335 \, \text{torr} \] ...

Similar Questions

Explore conceptually related problems

Interferon is a water-soluble protein . A solution prepared by dissolving 15.0 mg of interferon in 2.50 mL of H_(2)O exhibits an osmotic pressure of 5.80 mm Hg at 25^(@) C . What is the molar mass of interferon ?

A solution is prepared by dissolving 1.0g of NaOH in water to get 250 ml of solution. Calculate its molarity.

A solution is prepared by dissolving 1.0g of NaOH in water to get 250 ml of solution. Calculato its molarity.

An aqueous solution containing 21.6 mg at a solute in 100 ml of solution has an osmotic pressure of 3.70 mm of Hg at 25^(@)C . The molecular wt of solute in g//mol is

A solution sontain 8 g of a carbohydrate in 100 g of water has a density 1.025 g/mL and an osmotic pressure of 5 atm at 27^(@) C . What is the molar mass of the carbohydrate?

A solution of sucrose (molar mass =342) is prepared by dissolving 688.4 g in 1000 g of water. Calculate The osmotic pressure at 273 K.

A solution prepared by dissolving 8.95 mg of a given fragment in 35.0 mL of has an osmotic pressure of 0.335 torr at `25^(@)C`. Assuming that the given fragment is non-electolyty. Calculate its molar mass.

Text Solution

Similar Questions

Recommended Questions