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10 Nov 2019
The following reaction is investigated (assume an ideal gas mixture): 2N_2O(g) + N_2H_4(g) doubleheadarrow | 3N_2(g) + 2H_2O(g) Initially there are 0.10 moles of N_2O and 0.25 moles of N_2H_4, in a 10.0-L container. If there are 0.06 moles of N_2O at equilibrium, how many moles of H_2O are present at equilibrium? Show detailed calculations.
The following reaction is investigated (assume an ideal gas mixture): 2N_2O(g) + N_2H_4(g) doubleheadarrow | 3N_2(g) + 2H_2O(g) Initially there are 0.10 moles of N_2O and 0.25 moles of N_2H_4, in a 10.0-L container. If there are 0.06 moles of N_2O at equilibrium, how many moles of H_2O are present at equilibrium? Show detailed calculations.
Jean KeelingLv2
7 Sep 2019