3. Consider the following equilibrium for which AH = +92.4 kJ/mol: 2NH3(g) N₂(g) + 3H₂(g) When 3.00 mol of NH3(g) were p

[answerhappygod]

3 Consider The Following Equilibrium For Which Ah 92 4 Kj Mol 2nh3 G N G 3h G When 3 00 Mol Of Nh3 G Were P 1 (78.57 KiB) Viewed 45 times

please help with 3.1 and 3.2
3. Consider the following equilibrium for which AH = +92.4 kJ/mol: 2NH3(g) N₂(g) + 3H₂(g) When 3.00 mol of NH3(g) were placed into an evacuated 15.0 dm³ container at 963 K and the reaction reached equilibrium the pressure in the container was 2.40 x 106 Pa. The volume of the container was then changed and the reaction was allowed to reach equilibrium for the second time. (18) 3.1 Calculate the volume that will ensure a decrease in the moles of H2 by 45.9%. 3.2 Use the data provided in this question to determine the effect on the KC value when the volume of the container were fixed and the temperature doubled. Give all details, but do not perform any calculations in this question. (4)