This note covers the following topics:
the beginning of the modern era, pace and time and special relativity,
relativistic paradoxes and kinematics, velocity energy and matter, radiation as
particles, matter as waves, waves and uncertainty, bound states, matter in
motion, the discovery of spin, statistical mechanics, solid state physics:
bonding bands and gaps, Conduction and Insulation, The Theory of Semiconductors,
nuclear physics: nucleons and binding, models of the nucleus and radioactivity,
fission and fusion, particles and interactions: forces, antiparticles and the
building blocks of the universe.
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
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: 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 book describes how modern physics based
on relativity theory and quantum mechanics was born in the beginning of the 20th
century from a collapse of classical physics. Topics covered includes: Dr
Faustus, Zeno’s Paradox, Birth of Modern Physics, The Fall of Science, Mysticism
of Modern Physics, Quantum Field Magics, Paradoxes and Catastrophes.
The study of Modern
Physics is the study of the enormous revolution in our view of the physical
universe that began just prior to 1900. Topics covered includes: Galilean
transformations, The Quantum Theory of Light, Special Relativity, Relativity :
Mass, Energy and Momentum.
This lecture note
covers the following topics: Motion in one dimension and Vectors, Motion in two
and three dimensions and Force and Motion, Work and Kinetic Energy, Potential
Energy and Conservation of Energy, Center of Mass and Linear Momentum, Rotation,
Torque and Angular Momentum, Equilibrium and Elasticity, Gravitation,
Oscillations, Waves and Sound, Temperature, Heat and the First Law of
Thermodynamics.
Bernard Stallo, a
German-born American philosopher of science , developed a positivistic outlook,
especially in the philosophy of physics, in his book 'The Concepts and
Theories of Modern Physics', in which he anticipated to a degree some of the
general ideas later formulated in the theory of relativity and quantum
mechanics.
This
book covers the following topics: Dual Nature of Light and Matter, Atomic Models and Spectra, Famous
Experiments: Michelson-Morley, Famous Discoveries: Bohr Model, Energy-Level
Diagrams, Famous Discoveries: de Broglie Matter Waves, The Compton Effect and
The Discovery of the Neutron, The Franck-Hertz Experiment, The Photoelectric
Effect, Nuclear Reaction.