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The mean free path of Ne at 300.0 K and 0.987 bar is to be calculated. Concept introduction: The mean distance traveled by the same particle between two consecutive collisions is termed as mean free path. The value of the mean free path of a gas depends on the pressure and temperature of the system. The mean free path of gas is represented as, λ = k T 2 π d 2 p …(1) Where, • T represents the temperature. • d collision diameter of a gas. • p represents the pressure. • k represents the Boltzmann constant with value 1.381 × 10 − 23 J / K .

The mean free path of Ne at 300.0 K and 0.987 bar is to be calculated. Concept introduction: The mean distance traveled by the same particle between two consecutive collisions is termed as mean free path. The value of the mean free path of a gas depends on the pressure and temperature of the system. The mean free path of gas is represented as, λ = k T 2 π d 2 p …(1) Where, • T represents the temperature. • d collision diameter of a gas. • p represents the pressure. • k represents the Boltzmann constant with value 1.381 × 10 − 23 J / K .

Solution Summary: The author explains that the mean free path of Ne at 300.0, 0.987, and 1.2057, respectively, depends on the pressure and temperature of the system.

Physical Chemistry

Physical Chemistry

2nd Edition

ISBN: 9781133958437

Author: Ball, David W. (david Warren), BAER, Tomas

Publisher: Wadsworth Cengage Learning,

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Question

Chapter 19, Problem 19.35E

Interpretation Introduction

Interpretation:

The mean free path of Ne at 300.0 K and 0.987 bar is to be calculated.

Concept introduction:

The mean distance traveled by the same particle between two consecutive collisions is termed as mean free path. The value of the mean free path of a gas depends on the pressure and temperature of the system. The mean free path of gas is represented as,

λ=kT2πd2p …(1)

Where,

• T represents the temperature.

• dcollision diameter of a gas.

• p represents the pressure.

• k represents the Boltzmann constant with value 1.381×10−23 J/K.

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Chapter 19, Problem 19.34E

Chapter 19, Problem 19.36E

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Chapter 19 Solutions

Physical Chemistry

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