For `[CrCl_(3).xNH_(3)]`, elevation in boiling point of the one molal solution is triple of one molal aqueous solution of urea. Assuming 100% ionisation of complex molecule, calculate the value of x.

For [CrCl_(3).xNH_(3)] , elevation in boiling point of one molal solution is double of one molal solution of glucose , hence x is if complex is 100% ionised :

The mole fraction of the solute in one molal aqueous solution is:

Find the mole fraction of solute in its 3 molal aqueous solution.

The mole fraction of solute in one molal aqueous solution is ………… .

Calculate elevation in boiling point for 2 molal aqueous solution of glucose. (Given K_b(H_(2)O) = 0.5 kg mol^(-1) )

Why is one molar aqueous solution more concentrated than one molal solution ?

Mole fraction of solvent in aqueous solution of NaOH having molality of 3 is

The elevation of boiling point of 0.10 m aqueous CrCl_3.xNH_3 solution is two times that of 0.05 m aqueous CaCl_2 solution . The value of x is ____________ [ Assume 100% ionisation of the complex and CaCl_2 , coordination number of Cr as 6 , and that all NH_3 molecules are present inside the coordination sphere]

The molal elevation constant of water = 0.52 K m^(-1) . The boiling point of 1.0 molal aqueous KCl solution (assuming complete dissociation of KCl ) should be

The molal elevation constant of water = 0.52 K m^(-1) . The boiling point of 1.0 molal aqueous KCl solution (assuming complete dissociation of KCl ) should be