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It is to be proven that the average kinetic energy of two gas samples, UF 6 and He , is the same and isindependent of their different molecular masses. Concept introduction: From the kinetic molecular theory, the total kinetic energy of a mole of gas is equal to 3 2 R T . The average kinetic energy of one molecule is 1 2 m u 2 ¯ . Therefore, N A ( 1 2 m u 2 ¯ ) = 3 2 R T Here, N A is Avogadro’s number, R is thegas constant, and μ is the molecular mass. So, the equation becomes: u 2 ¯ = 3 R T μ u r m s = 3 R T μ Thus, root mean square speed is as follows: u 2 ¯ = u r m s

It is to be proven that the average kinetic energy of two gas samples, UF 6 and He , is the same and isindependent of their different molecular masses. Concept introduction: From the kinetic molecular theory, the total kinetic energy of a mole of gas is equal to 3 2 R T . The average kinetic energy of one molecule is 1 2 m u 2 ¯ . Therefore, N A ( 1 2 m u 2 ¯ ) = 3 2 R T Here, N A is Avogadro’s number, R is thegas constant, and μ is the molecular mass. So, the equation becomes: u 2 ¯ = 3 R T μ u r m s = 3 R T μ Thus, root mean square speed is as follows: u 2 ¯ = u r m s

Solution Summary: The author explains that the average kinetic energy of two gas samples is the same and is independent of their different molecular masses.

Chemistry

3rd Edition

ISBN: 9780073402734

Author: Julia Burdge

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Question

Chapter 10, Problem 80QP

Interpretation Introduction

Interpretation:

It is to be proven that the average kinetic energy of two gas samples, UF6 and He, is the same and isindependent of their different molecular masses.

Concept introduction:

From the kinetic molecular theory, the total kinetic energy of a mole of gas is equal to 32RT. The average kinetic energy of one molecule is 12mu2¯. Therefore,

NA(12mu2¯)=32RT

Here, NA is Avogadro’s number, R is thegas constant, and μ is the molecular mass.

So, the equation becomes:

u2¯=3RTμurms=3RTμ

Thus, root mean square speed is as follows:

u2¯=urms

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Chapter 10, Problem 79QP

Chapter 10, Problem 81QP

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