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Science Chemistry EBK CHEMISTRY

Whether the given symmetric and anti-symmetric modes of methane would absorb IR radiation should be decided. Concept introduction: The gases that cannot absorb IR radiation are termed as IR inactive and categorized into greenhouse gases. The two such gases are abundant in the atmosphere such as O 2 and N 2 . Toexhibit IR activity, any molecule must exhibit a progressive change in dipole moment in its vibrational modes. For instance, the anti-symmetric mode of CO 2 shows a fluctuation in dipole moment and hence is IR active.

Whether the given symmetric and anti-symmetric modes of methane would absorb IR radiation should be decided. Concept introduction: The gases that cannot absorb IR radiation are termed as IR inactive and categorized into greenhouse gases. The two such gases are abundant in the atmosphere such as O 2 and N 2 . Toexhibit IR activity, any molecule must exhibit a progressive change in dipole moment in its vibrational modes. For instance, the anti-symmetric mode of CO 2 shows a fluctuation in dipole moment and hence is IR active.

Solution Summary: The author explains that symmetric and anti-symmetric modes of methane would absorb IR radiation.

EBK CHEMISTRY

8th Edition

ISBN: 9780135216972

Author: Robinson

Publisher: PEARSON CO

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Question

Chapter 10, Problem 10.126SP

Interpretation Introduction

Interpretation:

Whether the given symmetric and anti-symmetric modes of methane would absorb IR radiation should be decided.

Concept introduction:

The gases that cannot absorb IR radiation are termed as IR inactive and categorized into greenhouse gases. The two such gases are abundant in the atmosphere such as O2 and N2. Toexhibit IR activity, any molecule must exhibit a progressive change in dipole moment in its vibrational modes. For instance, the anti-symmetric mode of CO2 shows a fluctuation in dipole moment and hence is IR active.

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Chapter 10, Problem 10.125SP

Chapter 10, Problem 10.127SP

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Chapter 10 Solutions

EBK CHEMISTRY

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