For `[CrCl_(3).xNH_(3)]`, elevation in `b.pt` of one molal solution is triple of one molal aqueous solution of urea. Assuming `100%` ionisation of complex molecule, calculated 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 a solute in its one molal aqueous solution is :

For [CrCl_(3).xNH_(3)] elevation in boiling point of one molal solution is double of one molal urea solution, hence x is (Given that the complex is 100% ionised)

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

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

Compound PdCl_(4). 6H_(2)O is a hydrated complex, 1 molal aqueous solution of it has freezing point 269.28 K. Assuming 100% ionization of complex, calculate the molecular formula of the complex ( K_(f) for water = 1.86 K mol^(-1) )