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23 Nov 2019
N2(g) + 3H2(g) â 2NH3(g) This is the Free Energy measured under standard conditions, when the reaction is started with 1.0 M of each of the three gases present. Calculate the non-standard Free Energy change (âG) at 298 K, given the following non-standard initial concentrations of the three gases. Answer in kJ. âGfo = -16.6 kJ/mol for NH3 (g) at 298 K initial concentration (M) N2 1.0 H2 0.1 NH3 4.8
N2(g) + 3H2(g) â 2NH3(g) This is the Free Energy measured under standard conditions, when the reaction is started with 1.0 M of each of the three gases present. Calculate the non-standard Free Energy change (âG) at 298 K, given the following non-standard initial concentrations of the three gases. Answer in kJ. âGfo = -16.6 kJ/mol for NH3 (g) at 298 K initial concentration (M) N2 1.0 H2 0.1 NH3 4.8
Lelia LubowitzLv2
23 Nov 2019