Oxidising power of chlorine in aqueous s...

Oxidising power of chlorine in aqueous solution can be determined by the parameters indicated below
`(1)/(2)CL_(2)(g)overset((1)/(2)Delta_(diss)H^(Theta))(rarr)Cl(g)overset(DeltaH_(Eg)^(Theta))(rarr)`
`Cl^(-)(g)overset(Delta_(hyd)H^(Theta))(rarr)Cl^(-)(aq)`
The energy involved in the conversion of `(1)/(2)Cl_(2)(g)` to
`Cl^(-)(aq)`
(Using the data `Delta_(diss)H_(Cl_(2))^(Theta)=240KJ mol^(-1)`)
`Delta_(Eg)H_(Cl)^(Theta)=-349KJmol^(-1)` ,
`Delta_(Eg)H_(Cl)^(Theta)=-381KJmol^(-1)`) will be

`+152c `

`-610KJmol^(-1)`

`-850KJmol^(-1)`

`+120KJmol^(-1)`

Text Solution

Verified by Experts

The correct Answer is:

`(1)/(2)Cl_(2)(g)rarrCl^(-)(aq)`
`DeltaH=(1)/(2)DeltaH_(diss)(Cl_(2))+DeltaH_(EA)Cl+DeltaH_(hyd)(Cl^(-))`
`=(240)/(2)-349-381=-610KJmol^(-1)`

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oxidising power of chlorine in aqueous solution can be determined by the parameters indicated below: Calculate the energy involved in the conversion of (1)/(2)Cl_(2)(g)"to"Cl^(-)(aq) Using the data , DeltaH_("disso"(Cl_(2)))^(@)=240KJmol^(-1), DeltaH_("eg"(Cl_(2)))^(@)=-349KJmol^(-1), DeltaH_("hydroation"(Cl_(2)))^(@)=-381KJmol^(-1),

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