Part C. thanks The Ideal Gas Law Derived ? 6of15 the sides of the container shou
ID: 2039053 • Letter: P
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Part C. thanks
The Ideal Gas Law Derived ? 6of15 the sides of the container should not appear in your answer View Available Hint(s) The ideal gas law, discovered experimentally, is arn equation of state that relates the observable state variables of the gas--pressure, temperature, and density (or quantity per volume): Previous Answers where N is the number of atoms, n is the number of moles, and R and kp are ideal gas constants such that R NAkB, where NA is Avogadro's number. In this problem, you should use Boltzmann's constant instead of the gas constant R Correct Very good! You have just derived the ideal gas law, generally written pV NkBT Remarkably, the pressure does not depend on the mass of the gas particles. Why don't heavier gas particles generate more pressure? This making a key assumption about the connection between the microscopic world and the macroscopic temperature T. This assumption is called the Equipartition Theorem puzzle was explained b Part C Which of the following statements about your derivation of the ideal gas law are true? The Equipartition Theorem states that the average energy associated with each degree of freedom in a Check all that apply The Equipartition Theorem implies that (v2) - (v^) Figure 1 of 1 u) = ?v) owing to inelastic collisions between the gas molecules. With just one particle in the container, the pressure on the wall (at L) is With just one particle in the container, the average force exerted on the particle by the wall (at z = Lz ) is independent of Ly and Lz Submit Request Answer Lz Part D This question will be shown after you complete previous question(s). Lx Provide Feedback Next >Explanation / Answer
1 is true, all three directions have the same average 2 is false.
The collisions are elastic
The x-component of the particles velocity will be constant, so it will hit the walls that limit the x range with the same frequency regardless of the other dimensions. The average force will be constant. However, the other dimensions determine the area of the walls that limit the x range, so they do affect the pressure.
so 3rd one is wrong and 4th is right
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