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For a given three different gases container, average kinetic energy, average velocity needed to be determined. Concept introduction: Kinetic molecular theory explains the properties of ideal gas. From the postulates of kinetic molecular theory it is clear that kinetic energy of gas particle is directly proportional to the Kelvin temperature of the gas. Average kinetic energy of gas can be determined as, K E a v g = ( 3 / 2 ) R T The average velocity can be determined, C a v e = ( 8 R T π M ) 1 / 2 (1) R = 8 . 3 1 4 J K m o l M = M o l a r m a s s i n k g

For a given three different gases container, average kinetic energy, average velocity needed to be determined. Concept introduction: Kinetic molecular theory explains the properties of ideal gas. From the postulates of kinetic molecular theory it is clear that kinetic energy of gas particle is directly proportional to the Kelvin temperature of the gas. Average kinetic energy of gas can be determined as, K E a v g = ( 3 / 2 ) R T The average velocity can be determined, C a v e = ( 8 R T π M ) 1 / 2 (1) R = 8 . 3 1 4 J K m o l M = M o l a r m a s s i n k g

Solution Summary: The author explains that kinetic energy of gas particle is directly proportional to the Kelvin temperature of the gas.

Chemistry

9th Edition

ISBN: 9781133611097

Author: Steven S. Zumdahl

Publisher: Cengage Learning

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Question

Chapter 5, Problem 109E

Interpretation Introduction

Interpretation: For a given three different gases container, average kinetic energy, average velocity needed to be determined.

Concept introduction:

Kinetic molecular theory explains the properties of ideal gas. From the postulates of kinetic molecular theory it is clear that kinetic energy of gas particle is directly proportional to the Kelvin temperature of the gas.

Average kinetic energy of gas can be determined as, KEavg= (3/2)RT

The average velocity can be determined,

Cave= (8 R T π M)1/2 (1)

R =8.314 JK molM= Molar mass in kg

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Chapter 5, Problem 108E

Chapter 5, Problem 110E

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