This
PDF covers the following topics related to Introductory Physics :
Classical mechanics, Conservation laws, Poisson structures, Observables and
states, Operators in Hilbert space, Canonical quantization, Harmonic oscillator,
Central potential,The Schr¨odinger representation, Abelian varieties and theta
functions, Fibre G-bundles, Gauge fields, Klein-Gordon equation, Yang-Mills
equations, Spinors, The Dirac equation, Quantization of free fields, Path
integrals, Feynman diagrams, Quantization of Yang-Mills fields.

This
PDF covers the following topics related to Introductory Physics :
Classical mechanics, Conservation laws, Poisson structures, Observables and
states, Operators in Hilbert space, Canonical quantization, Harmonic oscillator,
Central potential,The Schr¨odinger representation, Abelian varieties and theta
functions, Fibre G-bundles, Gauge fields, Klein-Gordon equation, Yang-Mills
equations, Spinors, The Dirac equation, Quantization of free fields, Path
integrals, Feynman diagrams, Quantization of Yang-Mills fields.

This book provides a glance view on phase
space dynamics of electron beam, motion of relativistic electrons in
three-dimensional ideal undulator magnetic field, numerical simulation of
electron multi-beam linear accelerator EVT, nuclear safety design of high energy
accelerator facilities, and radiation safety aspects of operation of electron
linear accelerators.

This lecture note covers
the following topics:Vectors, Kinematics, Newton’s Laws, Galilean Relativity,
Work and Kinetic Energy, Potential Energy, Momentum, Advanced Methods:
Lagrangian Mechanics.

This
note covers the following topics: Motion in one dimension, Motion in two
dimension, Newtons Laws of motion, Applying Newtons Laws, Kinetic Energy,Work,
Power, Conservation of energy, Systems of particles, Rotation in two dimensions,
Equilibrium, The Law of Gravitation, Periodic motion, Fluids and Waves.

This note explains the following topics:
Kinematics, Forces and Uniform Circular Motion, Work, Energy, and Momentum,
Statics, Torque, Rotational Motion, Fluids, Temperature, Heat, and
Thermodynamics, Waves and sound, Electric Forces and Electric Fields, Electric
Circuits, Magnetism,Electromagnetic Waves and Optics, Special Relativity.

This note describes the following topics:
Kinematics and Dynamics, Units and Vectors, Motion in One Dimension, Motion in
Two and Three Dimensions, Forces, Work and Energy, Linear Momentum and
Collisions Rotations, Vibrations and Waves, Rolling Motion, Oscillatory Motion,
Electric Fields, Electric Charge and Coulomb's Law, Gauss' Law.

This textbook has a
design that is just about perfectly backwards compared to most textbooks that
currently cover the subject. Topics covered includes: Elementary Mechanics,
Newton’s Laws, Systems of Particles, Momentum and Collisions, Torque and
Rotation in One Dimension, Applications of Mechanics, Fluids, Oscillations, Wave
Equation and Gravity.

This note describes the following topics: Motion in One Dimension,
Motion in Two Dimension, Forces, Energy, Momentum, Rotational Kinematics,
Rotational Dynamics, Oscillatory Motion, Waves.