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3. The kinetic energy of a particle in a sample can be calculated by the following equation: KE = 3/2 kT or KE = 1/2

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3. The kinetic energy of a particle in a sample can be calculated by the following equation: KE = 3/2 kT or KE = 1/2 mv2 where m stands for the mass of the particle, v stands for the particle speed, T stands for the Temperature of the system, and k stands for the Boltzmann constant. What would be the relative average kinetic energies for the helium at 100K, 200K, and 300K? (think about what this would mean for each variable) 4. Draw a graph to show the speed distributions of helium gas at 100K, 200K, 300K. (Show all three gases on the same graph.) 4b. Explain how you assigned the relative positions of each gas

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