Molality of pure liquid benzene `(C_(6)H_(6))` is its density d = 2 gram/ml
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The enthalpy of vaporisation of benzene (C_(6)H_(6)) is 30.8 kJ mol^(-1) at its boiling point (80.1^(@)C) . Calculate the entropy change in going from: a. liquid to vapour and b. vapour to liquid at 80.1^(@)C .

Find molality of aqueous solution of CH_(3)COOH whose molarity is 2M and density d = 1.2g//mL "Hint":m=(M)/(d-MM_(s))xx1000 Where d = density in gL^(-1) , ,M = Molartity, m = molality, M_(S) = molar mass of solute .

Find molality of aqueous solution of CH_(3)COOH whose molarity is 1M and density d = 1.2g//mL "Hint":m=(M)/(d-MM_(s))xx1000 Where d = density in gL^(-1) , ,M = Molartity, m = molality, M_(S) = molar mass of solute .

At 334K the vapour pressure of benzene (C_(6)H_(6)) is 0.526 atm and that of toluene (C_(7)H_(8)) is 0.188 atm. In a solution containing 0.500 mole of benzene and 0.500 mole of toluene , what is the vapour pressure of toluene for above solution at 334K ?

The molality of 49% by volume of H_(2)SO_(4) solution having density 1.49 g/mL is……

The vapour pressure of pure benzene C_(6)H_(6) at 50^(@)C is 268 "torr" . How many moles of non-volatile solute per mole of benzene is required to prepare a solution of benzene having a vapour pressure of 167 "torr" at 50^(@)C ?

How many molecules of benzene (C_(6) H_(6)) are there in 1 L of benzene ? Specific gravity of benzene is 0.88.

Calculate the amount of heat evolved during the complete combustion of 100 ml of liquid benzene from the following data. Predict your answer as (Delta H)/(100) ( in KJ/mol). (i) 18 gm of graphite on complete combustion evolve 585 KJ heat (ii) 15540 KJ heat is required to dissociate all the molecules of 1 litre water into H_(2) and O_(2) . (iii) The heat of formation of liquid benzene is 48 kJ/mol (iv) Density of C_(6)H_(6)(l)=0.87 gm//ml

The molal freezing point depression constant of benzene (C_(6)H_(6)) is 4.90 K kg mol^(-1) . Selenium exists as a polymer of the type Se_(x) . When 3.26 g of selenium is dissolved in 226 g of benzene, the observed freezing point is 0.112^(@)C lower than pure benzene. Deduce the molecular formula of selenium. (Atomic mass of Se=78.8 g mol^(-1) )

Molarity of H_(2)SO_(4) is 18 M. Its density is 1.8 g//cm^(3) ,hence molality is: