This page covers the
following topics related to Modern Physics : Newtonian Inertial frames, Time
dilation, Length contraction, Lorentz Transformations, Relativisitic
momentum and energy, Relativisitic collisions, Waves as particles photons,
Electron waves, Bohr model animation, More Bohr and blackbody reflection
animation, Quantum mechanics, 1D schroedinger, Particle in a box 1,
wavefunctions and probabilities for infinite potential well, Compare to
finite potential finite/infinite potential animation, Potential barriers and
tunnelling, step function, tunnelling animation, fusion in the sun, another
nice article on fusion in the sun, radioactive decay, 3D cartesian - box and
harmonic oscillator, 2D infinite well, 2D harmonic oscillator.
This note covers foundations of modern physics,
Introduction to the course, The special theory of relativity, Basic ideas,
The Lorentz transformation, Length contraction, The relativity of time,
Light and the doppler effect, The addition of velocities, Energy and
momentum, Toward the general theory of relativity, Radiation and matter, The
schrodinger wave equation, The bohr model of the atom, Solving them
schrodinger wave equation and special topics in nuclear medicine.
Author(s): Stephen Sekula, Southern
Methodist University Dallas
This PDF
covers the following topics related to Modern Physics : Photons, Electron
Waves, Quantum Mechanics, Atomic Structure, Molecules and Solids, Nuclear
Physics, Special Theory of Relativity.
This
note explains the following topics: Atomic Models,basics Of Atomic Spectra,
Basics Of Atomic Spectra, X-ray, Photoelectric Effect And Compton
Effect,molecular Spectra, Raman Spectra, Laser,properis Of Nucleus, Nucleus
Models, Nuclear Reaction , Nuclear Fission And Nuclear Fusion,
Radioactivity, Elementary Particles.
This note
covers the following topics: Relativity,frames Of Reference,
Special Relativity, Consequences Of The Principle Of Special Relativity ,
Energy And Momentum, A Hint Of General Relativity, Quantum Theory, A Black
Body Radiation, Photons,matter Waves, Atoms , Quantum Mechanics and Atomic
Structure A Schrodinger Wave Equation—one Dimensional, One-dimensional
Potentials, The Hydrogen Atom , Multi-electron Atoms.
This note explains the following topics: Newton’s first law, Newton’s second law, Newton’s third law, Gravity, The solar system,
The Age of Calculus, Law of conservation of momentum, Conservation of Energy and Pressure.
This note covers
the following topics: Crystallography and Crystal Structures, X-ray Diffraction
and Defects in Crystals, Lasers and Sensors, Fiber Optics, Interference and
Diffraction.
This note covers the
following topics: Quantum Revolution, The Photoelectric Effect, Energy
Conservation, Atomic Energy Levels From Spectra, Hydrogen Energy Level Spectrum,
Investigating Electrons, Two Slits With Waves, The Planetary Model Of The Atom,
The Quantum Picture Of The Atom, Nuclear Physics, The Strong Nuclear Force,
Nuclear Decay, Beta Decay, Gamma Decay, Rates Of Decay, Nuclear Fission,
Particle Physics.
This note explains the following topics:
Relativity, with an emphasis on dynamics, Classical waves, Quantum mechanics,
Applications of quantum mechanics to atomic physics, nuclear physics, particle
physics, solid state physics and statistical physics.