References) Consider a 1.0-L container of neon gas at STP. Will the average kinetic energy, average velocity, and frequency of collisions of gas molecules with the walls of the container increase, decrease, or remain the same under each of the following conditions? a. The temperature is increased to 390°C. Average kinetic energy Average velocity The collision frequency b. The temperature is decreased to -50°C. Average kinetic energy Average velocity The collision frequency c. The volume is decreased to 0.2 L. Average kinetic energy Average velocity The collision frequency d. The number of moles of neon is tripled. Average kinetic energy Average velocity The collision frequency

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Consider a 1.0-L container of neon gas at STP. Will the average kinetic energy, average velocity, and frequency of collisions of gas molecules with the walls of the container increase, decrease, or remain the same under each of the following conditions? a. The temperature is increased to 390°C: - Average kinetic energy [increase/decrease/same] - Average velocity [increase/decrease/same] - The collision frequency [increase/decrease/same] b. The temperature is decreased to -50°C: - Average kinetic energy [increase/decrease/same] - Average velocity [increase/decrease/same] - The collision frequency [increase/decrease/same] c. The volume is decreased to 0.2 L: - Average kinetic energy [increase/decrease/same] - Average velocity [increase/decrease/same] - The collision frequency [increase/decrease/same] d. The number of moles of neon is tripled: - Average kinetic energy [increase/decrease/same] - Average velocity [increase/decrease/same] - The collision frequency [increase/decrease/same] Note: Graphs or diagrams are not present in this image.

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**Exercise Overview:** Consider a 1.0-L container of neon gas at STP (Standard Temperature and Pressure). Evaluate if the average kinetic energy, average velocity, and frequency of collisions of gas molecules with the walls of the container will increase, decrease, or remain the same under each of the following conditions: **a. The temperature is increased to 390°C:** - **Average kinetic energy:** - **Average velocity:** - **The collision frequency:** **b. The temperature is decreased to -50°C:** - **Average kinetic energy:** - **Average velocity:** - **The collision frequency:** **c. The volume is decreased to 0.2 L:** - **Average kinetic energy:** - **Average velocity:** - **The collision frequency:** **d. The number of moles of neon is tripled:** - **Average kinetic energy:** - **Average velocity:** - **The collision frequency:** **Note:** This exercise guides learners to understand molecular behavior and dynamics under varying conditions of temperature, volume, and amount of gas.