CHEM 515 Spectroscopy
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CHEM 515 Spectroscopy Microwave Spectroscopy II
description
CHEM 515 Spectroscopy. Microwave Spectroscopy II. Moment of Inertia. Moment of inertia ( I ) , also called mass moment of inertia or the angular mass , is a measure of an object's resistance to changes in its rotation rate. It is the rotational analog of mass. - PowerPoint PPT Presentation
Transcript of CHEM 515 Spectroscopy
CHEM 515Spectroscopy
Microwave Spectroscopy II
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Moment of Inertia
• Moment of inertia (I), also called mass moment of inertia or the angular mass, is a measure of an object's resistance to changes in its rotation rate. It is the rotational analog of mass.
• The moment of inertia of an object about a given axis describes how difficult it is to change its angular motion about that axis.
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Moment of Inertia
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Moments of Inertia for a Water Molecule
Given:
r = 0.958 Å
θ = 104.5°
mH = 1.00 atomic mass unit (u)
mO = 16.00 atomic mass unit (u)
Results in:
f = 0.7575 Å
g = 0.5213 Å
h = 0.0652 Å
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Classes of Rotating Molecules
• Molecules can be classified into five main groups depending on their moments of inertia.
1. IC = IB , IA = 0 Linear molecules
2. IC = IB = IA Spherical top
3. IC = IB > IA Prolate symmetric top
4. IC > IB = IA Oblate symmetric top
5. IC > IB > IA Asymmetric top
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Linear Molecules
IC = IB , IA = 0
Linear molecules
Other examples:
• HCl
• CO2
• H–C≡C–H
• H–C≡C–C≡C–C≡C–H
• LiF
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Spherical Top Molecules
IC = IB = IA
Spherical top
Other examples:
• CH4
• CCl4
• Generally, molecules with Oh, Td, or Ih point groups are considered spherical top molecules.
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Prolate Symmetric Top Molecules
IC = IB > IA
Prolate symmetric top
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Oblate Symmetric Top Molecules
IC > IB = IA
Oblate symmetric top
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Asymmetric Top Molecules
IC > IB > IA
Asymmetric top
Most of the molecules are asymmetric top.
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Line Intensities in Rotational Spectra
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Line Intensities in Rotational Spectra
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Centrifugal Distortion
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Splitting Due to Stark Effect
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Nuclear Hyperfine Splitting
• An atomic nucleus is a collection of protons and neutrons.
• These particles are `spin-1/2' particles.
They have a spin quantum number of 1/2.
The nucleus itself has a total spin angular momentum formed by the coupling of the individual spin angular momenta of its constituent protons and nuclei (nucleons).
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Nuclear Hyperfine Splitting
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Nuclear Hyperfine Splitting
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Symmetric Top Molecules
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Energy Levels for Symmetric Top Molecules
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Energy Levels for Symmetric Top Molecules
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Selection Rules for Symmetric Top Molecules
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Rotational Spectra of Symmetric Top Molecules
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Rotational Spectra of Symmetric Top Molecules
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Asymmetric Rotor Rotational Levels
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Asymmetric Rotor Rotational Levels
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Asymmetric Rotor Rotational Levels
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Selection Rules for Asymmetric Rotor
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