An aqueous solution of urea has a freezi...

An aqueous solution of urea has a freezing point of `-0.52^(@)C`. Assuming molarity same for the solution, the osmotic pressure of solution at `37^(@)C` would be : `(K_(f)` of `H_(2)O=1.86 K` molarity`.^(-1)`)

Similar Questions

Explore conceptually related problems

An aqueous solution of urea has a freezing point of -0.515^(@)C . Predict the osmotic pressure (in atm) of the same solution at 37^(@)C .

An aqueous solution of urea has freezing point of -0.52^(@)C . If molarity and molality are same and K'_(f) for H_(2)O = 1.86 K "molality"^(-1) the osmotic pressure of solution would be:

An aqueous solution of urea has a freezing point of -0.515^(@)C . Predict the osmotic pressure (in atm) of the same solution at 37^(@)C . Given: Kf (Water) = 1.86K kg per mol

An aqueous solution of urea has a freezing point of -0.515^@C . Predict the osmotic pressure (in atm) of the same solution at 37^@C . k_f = 1.86 k kg (mol)^(-1)

An aqueous solution of urea has freezing point of -0.604^(@)C & At 27^(@)C . The osmatic pressure of the same solution is ____________atm . (assume molality and molarity are same)

The depression in the freezing point of a sugar solution was found to be 0.402^(@)C . Calculate the osmotic pressure of the sugar solution at 27^(@)C. (K_(f) = 1.86" K kg mol"^(-1)) .

An aqueous solution of urea has a freezing point of `-0.52^(@)C`. Assuming molarity same for the solution, the osmotic pressure of solution at `37^(@)C` would be : `(K_(f)` of `H_(2)O=1.86 K` molarity`.^(-1)`)

Similar Questions

Recommended Questions