Vapour pressure of "C"(6)"H"(6)" and""...

Vapour pressure of `"C"_(6)"H"_(6)" and""C"_(7)"H"_(8)` mixture at `50^(@)"C"` is given by P(mm Hg)`=180X_("B")+90`, where `"X"_("B")` is the mole fraction of `"C"_(6)"H"_(6).` A solution is prepared by mixing 936 g benzene and 736 g toluene and if the vapour over this solution ar removed and condensed into liquid and again brought to the temperature of `50^(@)"C"`, what would be the new mole fraction of `"C"_(6)"H"_(6)` in the vapour state ?

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Vapour pressure of C_(6)H_(6) and C_(7)H_(8) mixture at 50^(@)C is given by P(mm Hg) = 179 X_(B) +92 , where X_(R) is the mole fraction of C_(6)H_(6) . A solution is prepared by mixing 936g benzene and 736g toluene and if the vapours over this solution are removed and condensed into liquid and again brought to the temperature of 50^(@)C . what would be mole fraction of C_(6)H_(6) in the vapour state?

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Vapour Pressure of a mixture of benzene and toluene is given by P=179X_(B)+92 , Where X_(B) is molefraction of benzene . Vapour pressure of the solution obtained by mixing 936 g of benzene and 736 gm of toluence

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