If the solution of mercury cyanide of strenght 3gl/1 has an osmotic pressure `0.3092xx10^(5)Nm^(-2)` at 298 K, what is the apparent molecular weight and degree of dissociation of `Hg(CN)_(2)?`

A cane sugar solution has an osmotic pressure of 2.46 atm at 300K . What is the strength of the solution

A certain mass of hydrogen occupies 100cc at a pressure of 10^(5) Nm^(-2) at 27^(@)C . What is the mass of hydrogen? Molecular weight of hydrogen is 2 and R=8.3Jmol^(-1)K^(-1) .

At 10^(0)C ,the osmotic pressure of 1% (w/v) solution of 'X' is 7.87times10^(4)Nm^(-2) What is the molecular weight of solute 'X' ?

10 g of a substance was dissolved in water and the solution was made up to 250 cm^3 . The osmotic pressure of the solution was found to be 8xx10^5 Nm^(-2) at 288 K. Find the molecular weight of the solute.

At 298 K, 100 ml solution containing 3.002 g of solute gave an osmotic pressure of 2.55 atmospheres. Find the molecular mass of the solute.

A 0.01m aqueous solution of K_(3)[Fe(CN)_(6)] freezes at -0.062^(@)C . What is the apparent percentage of dissociation ? ( K_(f) for water =1.86 )

The degree of dissociation of 0.1N CH_(3)COOH is (K_(a)= 1xx10^(-5))