For each of the following questions, refer to the following balanced equation and the Data Table above. Give your answers to the first decimal place if the answer is greater than 1. Otherwise, use exponential format (e. g. 1.23E-10) 2 HgOs = 2 Hg) + O2(g) a) Determine the value of G°xn at 350 K, based on moles of O2. Do not include the units in the answer and assume that H° pxn and S°pn do not change considerably with temperature. kJ/mole b) Determine the value of Keg (3 sig. figs.) at 350 K. c) At 400 °C would you make more or less product than at 350 °C? Enter either more or less in lowercase.

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For each of the following questions, refer to the following balanced equation and the Data Table above. Give your answers to the first decimal place if the answer is greater than 1. Otherwise, use exponential format (e. g. 1.23E-10) 2 HgOs = 2 Hgu + O219) a) Determine the value of G°rxn at 350 K, based on moles of O2. Do not include the units in the answer and assume that H°pxn and S° rxn do not change considerably with temperature. kJ/mole b) Determine the value of Keg (3 sig. figs.) at 350 K. c) At 400 °C would you make more or less product than at 350 °C? Enter either more or less in lowercase.

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Use the following Data Table to answer the following questions: Data Table H°f (kJ/mole) S°F (J/molek) G°f (kJ/mole) Hg() 76.0 Hg(g) 61.3 174.9 31.8 HgO(s) -90.8 70.3 -58.5 O2lg) 205.0