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प्रश्न
Deduce the Vant Hoff equation.
उत्तर
This equation gives that quantitative temperature dependence of equilibrium constant (K). The relation between standard free energy change (∆G°) and equilibrium constant is
∆G° = – RT In K ………………..(1)
We know that, ∆G° = ∆H° – T∆S° …………(2)
Substituting (1) in equation (2)
– RT In K = ∆H° – T∆S°
Rearranging, In K = `(Delta "H"^0)/"RT" + (Delta "S"^0)/"RT"` ...(3)
Differentiating equation (3) with respect to temperature,
`(("d"("ln" "K"))/"dT") = (Delta "H"^0)/"RT"^2` ....(4)
Equation (4) is known as differential form of van,t Hoff equation.
On integrating the equation (4), between T1 and T2 with their respective equilbrium consatnts K1 and K2.
`int_("K"_1)^("K"_2) "d" ("ln K") = (Delta "H"^0)/"R" int_("T"_1)^("T"_2) "dT"/"T"^2`
`["ln K"]_("K"_1)^("K"_2) = (Delta "H"^0)/"R" [- 1/"T"]_("T"_1)^("T"_2)`
`"ln K"_2 - "ln K"_1 = (Delta "H"^0)/"R" - [1/"T"_2 + 1/"T"_1]`
`"ln" "K"_2/"K"_1 = (Delta "H"^0)/"R" [("T"_2 - "T"_1)/("T"_2"T"_1)]`
`log "K"_2/"K"_1 = (Delta "H"^0)/(2.303 "R")[("T"_2 - "T"_1)/("T"_2"T"_1)]` ....(5)
Equation 5 is known as integrated form of Van’t Hoff equation.
