The melting point of a certain substance is `70^(@)C` and its normal boiling point is `450^(@)C`. Its enthalpy of fusion is `30.0cal//g`, enthalpy of vaporisation is `45.0 cal//g` and its heat capacity is `0.215 cal g^(-1)K^(-1)`. Calculate the heat required to convert `100g` of substance from solid state at `70^(@)C` to vapour state at `450^(@)C`.

The melting point of a certain substance is `70^(@)C` and its normal b

1.	The melting point of a certain substance is `70^(@)C` and its normal boiling point is `450^(@)C`. Its enthalpy of fusion is `30.0cal//g`, enthalpy of vaporisation is `45.0 cal//g` and its heat capacity is `0.215 cal g^(-1)K^(-1)`. Calculate the heat required to convert `100g` of substance from solid state at `70^(@)C` to vapour state at `450^(@)C`.
Answer» `underset(70^(@)C)(Soli d) overset(DeltaH_(1))rarrunderset(70^(@)C)(Liqui d)overset(DeltaH_(2))rarr underset(450^(@)C)(Liqui d) overset(DeltaH_(3))rarr underset(450^(@)C)(Vapour)` `DeltaH_(Total)=DletaH_(1)+DeltaH_(2)+DeltaH_(3)` `=30xx100+100xx0.215xx380+45xx100` `3000+8170+4500` `=15670cal=15.67kcal`

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