In the ‘gas saturation method’ for the measurement of vapour pressure, a volume V of gas at temperature T and pressure P, is bubbled slowly through the liquid that is maintained at the same temperature T. The mass m lost from the liquid is measured and this can be related to the vapour pressure in the following way. (a) If the molar mass of the liquid is M, derive an expression for the mole fraction of the liquid vapour. (Hint: If it is assumed to be a perfect gas, the amount in moles of the input gas can be found from its pressure, temperature and volume.) (b) Hence derive an expression for the partial pressure of the liquid vapour, assuming that the gas remains at the total pressure P after it has passed through the liquid. (c) Then show that the vapour pressure p is given by p = AmP/(1 + Am), where A = RT/MPV. (d) The gas saturation method was used to measure the vapour pressure of geraniol (M = 154.2 g mol⁻¹) at 110 °C. It was found that, when 5.00 dm³ of nitrogen at 760 Torr was passed slowly through the heated liquid, the loss of mass was 0.32 g. Calculate the vapour pressure of geraniol.