0.10 mol 0.10 mol Ng) 1.0L 298 K 1OL 298 K Consider two containers of volume 1.0 L at 298 K, as shown above. One container holds 0.10 mol Nzlg) and the other holds 0.10 mol H2(g). The average kinetic energy of the N2(3) molecules is 6.2 x 10 21J. Assume that the N2(g) and the H2(g) exhibit ideal behavior. a. is the pressure in the container holding the H2(3) less than: greater than, or equal to the pressure in the container holding the N2(9) ? Justify your answer (3 pts) b. What is the average kinetic energy of the H2(g) molecules? (3 pts C.What change could be made that would decrease the average kinetic energy of the N2(g) molecules in the container? (3 pts)

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**Educational Content: Study of Gases Under Ideal Conditions** **Diagram Description:** The image contains two diagrams of containers representing gases under specific conditions: 1. **Container with Nitrogen Gas (N₂):** - Contains 0.10 mol of N₂(g) - Volume: 1.0 L - Temperature: 298 K 2. **Container with Hydrogen Gas (H₂):** - Contains 0.10 mol of H₂(g) - Volume: 1.0 L - Temperature: 298 K **Text Content:** Consider two containers of volume 1.0 L at 298 K as shown above. One container holds 0.10 mol of N₂(g) and the other holds 0.10 mol of H₂(g). The average kinetic energy of the N₂(g) molecules is \(6.2 \times 10^{-21}\) J. Assume that the N₂(g) and the H₂(g) exhibit ideal behavior. Questions: a. Is the pressure in the container holding the H₂(g) less than, greater than, or equal to the pressure in the container holding the N₂(g)? Justify your answer. (3 pts) b. What is the average kinetic energy of the H₂(g) molecules? (3 pts) c. What change could be made that would decrease the average kinetic energy of the N₂(g) molecules in the container? (3 pts) **Instruction:** Click here before leaving this question.