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A complex is represented as CoCl(3) . XN...

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.

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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.

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.

A complex is represented as CoCl_(3).xNH_(3) . Its 0.1 molal solution in water shows Delta T_(f)=0.558k. K_(f) for H_(2)O is 1.86K//"mol" . Assuming 100% ionisation of complex and coordination number of Co in six . The formula of complex is

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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 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.