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Science Chemistry PHYSICAL CHEMISTRY-STUDENT SOLN.MAN.

The equation 19.36 is to be derived. Concept introduction: The Maxwell-Boltzmann distribution is given by, G ( v ) d v = 4 π ( m 2 π k T ) 3 / 2 v 2 ⋅ e − m v 2 / 2 k T d v Where, • m is the mass of the system. • v is the average velocity. • k is the Boltzmann constant. • T is the temperature. This distribution depends on the mass of the particle and absolute temperature.

The equation 19.36 is to be derived. Concept introduction: The Maxwell-Boltzmann distribution is given by, G ( v ) d v = 4 π ( m 2 π k T ) 3 / 2 v 2 ⋅ e − m v 2 / 2 k T d v Where, • m is the mass of the system. • v is the average velocity. • k is the Boltzmann constant. • T is the temperature. This distribution depends on the mass of the particle and absolute temperature.

Solution Summary: The author explains how the Maxwell-Boltzmann distribution can be obtained by integrating the product of probability function G(v) and velocity with v.

PHYSICAL CHEMISTRY-STUDENT SOLN.MAN.

PHYSICAL CHEMISTRY-STUDENT SOLN.MAN.

2nd Edition

ISBN: 9781285074788

Author: Ball

Publisher: CENGAGE L

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Question

Chapter 19, Problem 19.24E

Interpretation Introduction

Interpretation:

The equation 19.36 is to be derived.

Concept introduction:

The Maxwell-Boltzmann distribution is given by,

G(v)dv=4π(m2πkT)3/2v2⋅e−mv2/2kTdv

Where,

• m is the mass of the system.

• v is the average velocity.

• k is the Boltzmann constant.

• T is the temperature.

This distribution depends on the mass of the particle and absolute temperature.

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Chapter 19, Problem 19.23E

Chapter 19, Problem 19.25E

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Chapter 19 Solutions

PHYSICAL CHEMISTRY-STUDENT SOLN.MAN.

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