PtCl(4).6H(2)O can exist as a hydrated c...

`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

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

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.

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) )

A .001 molal solution of a complex [MA_8] in water has the freezing point of -0.0054^@C . Assuming 100% ionization of the complex salt and K,for H_2O 1.86Km^-1 , write the correct representation for the complex

`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

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