Compound `PdCl_(4).6H_(2)O` is a hydrated complex, `1 m` aqueous solution of it has freezing point `269.28 K`. Assuming `100%` ionization of complex, calculate the number of ions furnished by complex in the solution.

1% aqueous solution of Ca(NO_(3))_(2) has freezing point

PtCl_(4).6H_(2)O can exist as a hydrated complex. 1 m aqueous solution has the depression in freezing point of 3.72^(@) . Assume 100% ionization and K_(f)(H_(2)O)=1.86^(@)mol^(-1) kg , then the complex is

PtCl_(4).6H_(2)O can exist as hydrated complex 1 molal aq.solution has depression in freezing point of 3.72^(@)C Assume 100% ionisation and K_(f)(H_(2)O=1.86^(@)Cmol^(-1)Kg) then complex is

0.1 M aqueous solution of K_4[Fe(CN)_6] will have the same freezing point as 0.1 M aqueous solution of

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.

A 0.001 molal solution of a complex represented as Pt(NH_(3))_(4)Cl_(4) in water had freezing point depression of 0.0054^(@)C . Given K_(f) for H_(2)O=1.86 K m^(-1) . Assuming 100% ionization of the complex, write the ionization nature and formula or complex.

A complex is represented as CoCl_(3) . XNH_(3) . Its 0.1 molal solution in aqueous solution shows Delta T_(f) = 0.558^(circ). (K_(f) for H_(2)O is 1.86 K "molality"^(-1)) Assuming 100% ionisation of complex and co-ordination number of Co as six, calculate formula of complex.

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]

A complex is represented as CoCl_(3)Xnh_(3) . Its 0.1 molal solution in water DeltaT_(f)=0.588 K. K_(f) for H_(2)O is 1.86K" molality"^(-1) . Assuming 100% ionisation of complex and co - ordination number of Co is six calculate formula of complex.

Equimolal solutions KCl and compound X in water show depression in freezing point in the ratio of 4:1 , Assuming KCl to be completely ionized, the compound X in solution must