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12.33. The solubility of nonpolar gases in liquid water is typically very low. Consider nitrogen in particular. Its solubility is characterized by the equilibrium mole fraction XN of dissolved nitrogen in the liquid phase (with water mole fraction xw = 1 - XN) when the system is in equilibrium with a vapor phase (with corresponding mole fractions yn and yw). The mole fraction X is typically of the order 10-5. The vapor pressure of water at 300 K is PP = 3.5 kPa, and you can assume that the impact of its temperature dependence on solubility is relatively weak. Use ideal models in what follows. (a) At 1 bar and 300 K, estimate the mole fraction of water that is present in the vapor phase, yw. (b) Show that the solubility of nitrogen is given approximately by XN = C(T,P)(1-yw)P where C(T, P) is a constant that is independent of concentrations. Find an expression for C(T, P) in terms of standard and pure chemical potentials. (c) Do you expect the solubility to increase or decrease with temperature? Explain by finding the temperature dependence of C(T, P).