I Review | Constants | Periodic Table The equilibrium constant of a system, K, can be related to the standard free energy change, AG°. using the following equation: Part A AG RT In K Acetylene, C2H2, can be converted to ethane, C2H6. by a process known as hydrogenation. The reaction is where T is a specified temperature in kelvins (usually 208 K) and R is equal to 8.314 J/(K - mol). C2H2(g) + 2H2(g) - C2Hs(g) Under conditions other than standard state, the following equation applies: Given the following data at standard conditions (all pressures equal to 1 atm and the common reference temperature 298 K), what is the value of Kp for this reaction? AG AG" + RT In Q AG (kJ/mol) Substance In this equation, Q is the reaction quotient and is defined the same manner as K except that the concentrations or pressures used are not necessarily the equilibrium values. C,H2(g) 209.2 H2(g) C,Hs(g) 32.89 Express your answer using two significant figures. > View Available Hint(s) Kp = Submit

Given the following data at standard conditions (all pressures equal to 1 atmatm and the common reference temperature 298 KK), what is the value of KpKpK_p for this reaction?

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<Hw8-Chapter19 + Free Energy and Chemical Equilibrium 9 of 17 (> I Review | Constants | Periodic Table The equilibrium constant of a system, K, can be related to the standard free energy change, AG°, using the following equation: Part A AG" RT In K Acetylene, C2H2, can be converted to ethane, C2H6. by a process known as hydrogenation. The reaction is where T is a specified temperature in kelvins (usually 208 K) and R is equal to 8.314 J/(K - mol). C2H2(g) + 2H2(g) - C2Hs(g) Under conditions other than standard state, the following equation applies: Given the following data at standard conditions (all pressures equal to 1 atm and the common reference temperature 29s K), what is the value of Kp for this reaction? AG AG + RT In Q AG (kJ/mol) Substance In this equation, Q is the reaction quotient and is defined the same manner as K except that the concentrations or pressures used are not necessarily the equilibrium values. C2H2(g) 200.2 H2(g) C2Hs(g) -32.89 Express your answer using two significant figures. > View Available Hint(s) Kp = Submit