A complex of iron and cyanide ions is 100% ionised at 1m (mol). If its elevation in b.p is `2.8^(0)`, (`K_(b)=0.52^(0) "mol"^(-1)Kg`), then the complex is :

A complex of iron and cynanide ions is 100% ionised at 1m (molal) . If its elevation inb.p. is 208^(@), (K_(b)=0.52^(@)mol^(-1)Kg) , then the complex is :

Elevation in b.p of an aqueous urea solution is 0.52^(0). (K_(b)=0.52^(0)"mol"^(-1)kg ). Hence, mole -fraction of urea in this solution is :

2g of a non-electrolyte solute dissolved in 200 g of water shows an elevation of boiling point of 0.026^(@)C. K_(b) of water is 0.52 K . "mole"^(1) kg then the molecular weight of solute is x xx100 . What is the value of 'x'?

A 0.2M solution of formic acid is 3.2% ionised. Its ionisation constant is

An aqueous dilute solution containing non-volatile solute boils at 100.052^(@)C . What is the molality of solution? ( K_(b) - 0.52 kg.mol^(-1)K , boiling temperature of water = 100^(@)C )

1.0 molal aqueous solution of an electrolyte X_(3)Y_(2) is 25% ionized. The Boiling point of the solution is (K_(b) of H_(2)O=0.52K kg mol^(-1))

If the osmotic pressure of glucose solution is 1.52 bar at 300 K. What would be its concentration if R = 0.083L bar "mol"^(-1)"K"^(-1) ?

Molality of an aqueous solution that produces an elevation of boiling point of 1.00K at 1 atm pressure (K_(b) for water =0.512K.kg." mol"^(-1))

When 0.9 g of a non-volatile solute was dissovled in 45 g of benezene, the elevation of boiling point is 0.88^@C . If K_b for benezene is 2.53 K kg "mol"^(-1) , Calculate the molar mass of solute.