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Science Chemistry Chemistry Principles And Practice

The ratio of the rate of effusion of N 2 to that of SO 2 gas for a container that has the equimolar amount of the two gases has to be calculated. Concept Introduction: Graham’s law states that the rate of effusion of gases varies inversely to the square root of its molar mass. Mathematically it can be stated as follows: Rate 1 Rate 2 = M 2 M 1 Here, M 2 denotes the molar mass of second gas. M 1 denotes the molar mass of first gas. Rate 1 denotes the rate of effusion of first gas. Rate 2 denotes the rate of effusion of second gas.

The ratio of the rate of effusion of N 2 to that of SO 2 gas for a container that has the equimolar amount of the two gases has to be calculated. Concept Introduction: Graham’s law states that the rate of effusion of gases varies inversely to the square root of its molar mass. Mathematically it can be stated as follows: Rate 1 Rate 2 = M 2 M 1 Here, M 2 denotes the molar mass of second gas. M 1 denotes the molar mass of first gas. Rate 1 denotes the rate of effusion of first gas. Rate 2 denotes the rate of effusion of second gas.

Solution Summary: The author explains how Graham's law states that the rate of effusion of gases varies inversely to the square root of its molar mass.

Chemistry Principles And Practice

Chemistry Principles And Practice

3rd Edition

ISBN: 9781305295803

Author: David Reger; Scott Ball; Daniel Goode

Publisher: Cengage Learning

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Kinetic-Theory of Gases

Kinetic theory of gases is the model or method which was developed in the 19th century by Maxwell and Boltzmann. This is possible as the interatomic force which is of short-range forces that are important for solids and liquids can be neglected for gases…

Question

Chapter 6, Problem 6.106QE

Interpretation Introduction

Interpretation:

The ratio of the rate of effusion of N2 to that of SO2 gas for a container that has the equimolar amount of the two gases has to be calculated.

Concept Introduction:

Graham’s law states that the rate of effusion of gases varies inversely to the square root of its molar mass. Mathematically it can be stated as follows:

Rate1Rate2=M2M1

Here,

M2 denotes the molar mass of second gas.

M1 denotes the molar mass of first gas.

Rate1 denotes the rate of effusion of first gas.

Rate2 denotes the rate of effusion of second gas.

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Chapter 6, Problem 6.105QE

Chapter 6, Problem 6.107QE

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Chemistry Principles And Practice

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