3) Compute the vapor pressure of liquid water at 298 K using the liquid and gas standard state chemical potentials available from Table A.5 in Tinoco, and assuming ideal behavior for the gas (Hint: The standard state chemical potentials are equivalent to the standard state free energies of formation, since the latter are given in per mole units, = AG;).

Transcribed Image Text:

3) Compute the vapor pressure of liquid water at 298 K using the liquid and gas standard state chemical potentials available from Table A.5 in Tinoco, and assuming ideal behavior for the gas (Hint: The standard state chemical potentials are equivalent to the standard state free energies of formation, since the latter are given in per mole units, µº = AG°).

Transcribed Image Text:

4H (kJ mol ') SUK'mol ') 4,G° (kJ mol ') HCO, (aq) -691.99 91.2 -586.77 co, (aq) -677.14 -56.9 -527.81 Fe(s) 27.28 Fe,0,(s) -824.2 87.40 -742.2 0. 130.79 H,(g) H,O(g) H,O() -241.82 188.93 -228.73 -285.83 69.91 -237.13 H*(aq) OH (aq) -229.99 -10.75 -157.244 H,0,(aq) -191.17 143.9 -134.03 -33.56 H,S(g) H,SO,(g) N,(g) NH,(g) -20.63 205.90 -735.13 298.8 -653.37 191.72 46.11 192.56 -16.78 -80.29 II1.3 -26.50 NH,(aq) NH,(aq) -132.51 113.4 -79.31 NO(g) 90.25 210.87 86.55 NO,(g) 33.18 240.17 51.47 -205.0 146.40 -108.74 NO, (aq) Na (aq) -240.12 59.0 -261.90 NaCl(s) -411.15 72.13 -384.14 NaCl(aq) 407.27 115.5 -393.13 NaOH(s) -425.61 64.46 -379.49 205.25 0,(g) 0,(g) 142.7 239.04 163.4 Srhombic) 31.80 -300.19 So.(g) SO (g) 296.83 248.33 395.72 256.87 -371.22 Standard ihemmodynamie values at 25 C1198 15 KTand I har pressure. Values for ions refer ti an aqueuus solution at unit