This volume encompasses five chapters from my personal study notes
which covers all courses and notes in my study of Nuclear
Engineering, from high school throughout my post-doctorate
associateship. CHAPTER 9: The Wave Nature of Matter The Wave Nature
of Matter DE BROGLIE'S CONCEPT OF MATTER WAVES EXPERIMENTAL STUDY
OF MATTER WAVES EXPERIMENTS OF DAVISSON AND GERMER EXPERIMENTS OF
G. P. THOMSON THEORETICAL STUDY OF MATTER WAVES QUANTUM MECHANICS
Matrices Algebra 1. THE CORPUSCULAR CONCEPT OF MATTER 2. THE
TRANSFORMATION THEORY WAVE MECHANICS PHYSICAL SIGNIFICANCE OF the
wave function PRINCIPLE OF INDETERMINACY CRITICISM OF THE THEORY OF
MATTER WAVES CHAPTER 10: Quantum Statistics Principles of
statistical mechanics Calculus of probabilities and its laws
CLASSICAL STATISTICS APPLICATIONS OF THE QUANTUM STATISTICS A.
Bose-Einstein statistics 1. Black body radiation 2. Gas
degeneration B. Fermi-Dirac statistics 1. Electron theory of metals
2. Thermal and electrical conductivities 3. Thermoelectricity 4.
Thermionic effect 5. Photoelectric effect 6. Contact potential
difference (Volta effect) 7. Paramagnetism of the alkali metals
CRITICISM OF THE QUANTUM STATISTICS CHAPTER 11: The Atom SPECIAL
UNITS USED IN ATOMIC PHYSICS The Electronic Structure of the Atom
The Atom Models THOMSON ATOM MODEL RUTHERFORD NUCLEAR ATOM MODEL
EXPERIMENTS ON THE SCATTERING OF ALPHA PARTICLES BOHR ATOM MODEL
ELECTRONIC STRUCTURE ORIGIN OF SPECTRAL LINES Bohr's theory of the
origin of spectral lines 1. Spectrum of the singly ionized helium
2. Determination of the ratio of the mass of the electron to that
of the proton: m/MH 3. The discovery deuterium or heavy hydrogen of
mass number two APPLICATIONS OF BOHR'S THEORY EXCITATION AND
IONIZATION OF ATOMS Methods of excitation of atoms EXPERIMENT OF
DAVIS AND GOUCHER X-RAY SPECTRA SOME PECULIARITIES OF THE
CHARACTERISTIC X-RAY SPECTRA X-RAY ABSORPTION SPECTRA THE
SOMMERFELD RELATIVISTIC ATOM MODEL VECTOR ATOM MODEL QUANTUM
NUMBERS ASSOCIATED WITH THE VECTOR MODEL OF THE ATOM MAGNETIC
MOMENT DUE TO ORBITAL MOTION BOHR MAGNETON MAGNETIC MOMENT DUE TO
ELECTRON SPIN ELECTRONIC STRUCTURE IN ATOMS ELECTRON CONFIGURATIONS
WITH THEIR MODERN SYMBOLIC REPRESENTATIONS Semiconductors and
transistors FINE STRUCTURE OF SPECTRAL LINES OPTICAL SPECTRA Fine
structure FINE STRUCTURE OF THE SODIUM D-LINE FINE STRUCTURE OF THE
H-alpha LINE X-RAY SPECTRA ZEEMAN EFFECT DEBYE'S EXPLANATION OF THE
NORMAL ZEEMAN EFFECT EXPLANATION OF THE ANOMALOUS ZEEMAN EFFECT
PASCHEN-BACK EFFECT STARK EFFECT THE STARK PATTERN OF THE H-a LINE
FORBIDDEN LINES IN ATOMIC SPECTRA Forbidden lines in nebular and
auroral spectra EXPERIMENTAL CONFIRMATION OF THE VECTOR MODEL STERN
AND GERLACH EXPERIMENT GYROMAGNETIC EFFECT THE WAVE MECHANICAL ATOM
MODEL SOLUTION OF SCHRODINGER'S EQUATION FOR THE ONE-ELECTRON ATOM
SOME APPLICATIONS OF THE WAVE MECHANICAL THEORY 1. HYDROGEN AND
HELIUM ATOMS 2. MAGNETIC PROPERTIES OF MATERIALS CHAPTER 12:
Molecular Spectra Van der Waals type of binding Molecular Spectra
Van der Waals type of binding Metallic binding Electric moments of
molecules Size and shape of molecules Dissociation of molecules:
heat of dissociation Franck-Condon principle MOLECULAR SPECTRA
Theory of the rotation-vibration spectra Theory of the electronic
band spectra PECULIARITIES OF CERTAIN BAND SPECTRA ISOTOPIC EFFECT
IN MOLECULAR SPECTRA RAMAN EFFECT APPLICATIONS OF THE RAMAN EFFECT
IN PHYSICS APPLICATIONS OF THE RAMAN EFFECT IN CHEMISTRY SOLID
STATE SPECTROSCOPY Chapter 13: Modern Problems of Radioactivity
Modern Problems of Radioactivity The Nucleus of the Atom RADIATIONS
FROM NATURAL RADIOELEMENTS Alpha disintegration Beta disintegration
Gamma-ray emission SPECTRA OF THE RADIATIONS FROM NATURAL
RADIOELEMENTS GAMMA RAY SPECTRA Nuclear energy levels ALPHA RAY
SPECTRA BETA RAY SPECTRA The cloud chamber method Theoretical
interpretation of the beta-ray continuum
General
Imprint: |
Createspace Independent Publishing Platform
|
Country of origin: |
United States |
Release date: |
August 2011 |
First published: |
August 2011 |
Authors: |
Mohamed F El-Hewie
|
Dimensions: |
254 x 203 x 21mm (L x W x T) |
Format: |
Paperback - Trade
|
Pages: |
404 |
ISBN-13: |
978-1-4637-9437-8 |
Categories: |
Books >
Science & Mathematics >
Physics >
Atomic & molecular physics
|
LSN: |
1-4637-9437-1 |
Barcode: |
9781463794378 |
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