A solution of urea in water has boiling ...

A solution of urea in water has boiling point of `100.15^(@)C`. Calculate the freezing point of the same solution if `K_(f)` and `K_(b)` for water are `1.87 K kg mol^(-1)` and `0.52 K kg mol^(-1)`, respectively.

`-6.54^(@)C`

`6.54^(@)C`

`0.654^(@)C`

`-0.654^(@)C`

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The correct Answer is:

According to depression of freezing point, `Delta T_(f)=K_(f)xx` molality of solution
According to elevation of boiling point,
`Delta T_(b)=K_(b)xx` molality of solution
or `(Delta T_(f))/(Delta T_(b))=(K_(f))/(K_(b))`
Given that
`Delta T_(b)=T_(2)-T_(1)=100.18-100=0.18`
`K_(f)` for water `= 1.86 K kg mol^(-1)`
`K_(b)` for water `= 0.512 K kg mol^(-1)`
`therefore (Delta T_(f))/(0.18)=(1.86)/(0.512)`
`Delta T_(f)=(1.86xx0.18)/(0.512)=0.6539~~0.654`
`Delta T_(f)=T_(1)-T_(2)`
`0.654=0^(@)C-T_(2)`
`therefore T_(2)=-0.654^(@)C`
(`T_(2)rarr` freezing point of aqueous urea solution)

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