The normal boiling point of water is 373 k. vapour of waterr at temperature T is 19 mm hg. If enthalpy of vapoursed is 40.67 kJ/mol, them temperature Twould be
(use : log 2 = 0.3, R : 8.3` Jk^(-1)mol^(-1)`):

The normal boiling point of toluene is 110.7^(@)C and its boiling point elevation constant 3.32 " K kg mol"^(-1) . The enthalpy of vaporization of toluene is nearly :

The decomposition of A into product has value of k as 4.5 xx 10^3 s^-1 at 10°C and energy of activation 60 kJ mol^-1 . At what temperature would k be 1.5 xx 10^4 s^-1 ?

Calculate the temperature of 4.0 moles of a gas occupying 5 dm^(3) at 3.32 bar (R = 0.083 bar dm^(3)K^(-1)"mol"^(-1) ).

18 g of glucose is dissolved in 1 kg of water. At what temperature will the solution boil ? ( K_b for water is 0.52 K kg "mol"^(-1) )

What amount of heat must be supplied to 2.0 xx 10^-2 kg of nitrogen (at room temperature) to raise its temperature by 45 ^@C at constant pressure ? (Molecular mass of N_2 = 28, R = 8.3 J mol^-1 K^-1. )

If 10^(-4) dm^(3) of water is introduced into a 1.0 dm^(3) flask to 300K how many moles of water are in the vapour phase when equilibrium is established ? (Given vapour pressure of H_(2)O at 300K is 3170Pa R =8.314 JK^(-1) mol^(-1)) .

The rate of a reaction increases four times when the temperature changes from 300 K to 320 K. Calculate the energy of activation of the reaction assuming that it does not change with temperature (R = 8.314 JK^-1 mol^-1) .

For a dilute solution containing 2.5 g of a non volatile non electrolyte solution in 100 g of water, the elevation in boiling point at 1 atm pressure is 2^@C . Assuming concentration of solute is much lower than the concentration of solvent, the vapour pressure (take k b = 0.76 K Kg mol^-1 )