The development of quantum
mechanics has taken physics in a vastly new direction from that of classical
physics from the very start. In fact, there continue at present to be many
developments in the subject of a very fundamental nature, such as implications
for the foundations of physics, physics of entanglement, geometric phases,
gravity and cosmology and elementary particles as well. It is hoped the papers
in this volume will provide a much needed resource for researchers with regard
to current topics of research in this growing area.
This book covers the following topics: Maxwell’s Equations, Electrostatic Fields, Potential Theory, Magnetostatic
Fields, Magnetostatics in Magnetic Media, Wave Propagation in Uniform
Dielectric Media, Wave Propagation in Inhomogeneous Dielectric Media,
Radiation and Scattering, Resonant Cavities and Waveguides, Multipole
Expansion, Relativity and Electromagnetism.
This note explains
the following topics:Quantum Mechanics in Hilbert Spaces, Symmetries,
One-Particle Bound States in R3, Quantum Mechanics in L2(R3), Spin in
Quantum Mechanics, Combining Angular Momentum Eigenstates, Quantum Mechanics
of Identical Particles, Approximation Methods for Stationary States,
Elementary Scattering Theory and Elements of Formal Scattering Theory.
This note introduces Quantum Mechanics at an advanced level
addressing students of Physics, Mathematics, Chemistry and Electrical
Engineering. It covers the following topics: Lagrangian Mechanics, Quantum
Mechanical Path Integral, The Schr¨odinger Equation, Linear Harmonic
Oscillator, Theory of Angular Momentum and Spin, Quantum Mechanical Addition
of Angular Momenta and Spin, Motion in Spherically Symmetric Potentials,
Interaction of Charged Particles with Electromagnetic Radiation,
Many–Particle Systems, Relativistic Quantum Mechanics, Spinor Formulation of
Relativistic Quantum Mechanics and Symmetries in Physics.