Classical Mechanics Konstantin Likharev

Classical Mechanics by Joachim Brod

This note exlains Newtonian remarks, Oscillations, Gravitation, Variational calculus, Lagrangian and hamiltonian mechanics, Central force motion, Systems of particles, Motion in a noninertial reference frame, Dynamics of rigid bodies and small oscillations.

Author(s): University of Cincinnati

130 Pages

Classical Mechanics by Alagappa University

This note explains the following topics: Lagrange And Hamilton Equations , Newton’s Laws Of Motion, Hamiltonian Methods, Hamilton’s Principle, Hamilton-jacobi Theory, Canonical Transformations, Kinematics Of Rigid Body Motion And Special Theory Of Reativity, : Small Oscillations And Normal Modes, Special Theory Of Relativity, Lorentz Transformation, One Dimensional Oscillator.

Author(s): Alagappa University

290 Pages

Lecture notes on Classical Mechanics and Electromagnetism in Accelerator Physics

The topics in this lecture notes are : Linear and Nonlinear Oscillators, Lagrangian and Hamiltonian equations of motion, Canonical transformations, Liouville’s theorem, Action-angle variables, Coordinate system and Hamiltonian in an accelerator, Equations of motion in accelerator, Action-angle variables for circular machines, Field errors and nonlinear resonances, Resonance overlapping and dynamic aperture, The kinetic equation, Radiation damping effects, Primer in Special Relativity, Selected electrostatic and magnetostatic problems, Self field of a relativistic beam, Effect of environment on electromagnetic field of a beam, Plane electromagnetic waves and Gaussian beams, Radiation and retarded potentials, Scattering of electromagnetic waves, Synchrotron radiation, Undulator radiation, Transition and diffraction radiation, Formation length of radiation and coherent effects, Synchrotron radiation reaction force, Waveguides and RF cavities, Laser acceleration in vacuum. Inverse FEL acceleration.

Author(s): G. Stupakov, The US Particle Accelerator School

214 Pages

Classical Mechanics by Julio Gea Banacloche

This is a “minimalist” textbook for a first semester of university, calculus-based physics, covering classical mechanics, plus a brief introduction to thermodynamics. Topics covered includes: Acceleration, Momentum and Inertia, Kinetic Energy, Interactions and energy, Interactions, Forces, Impulse, Work and Power, Motion in two dimensions, Rotational dynamics, Gravity, Simple harmonic motion, Waves in one dimension, Thermodynamics.

Author(s): Julio Gea-Banacloche

NA Pages

Classical Mechanics by Sahra Haji

This lecture note explains the following topics: Newtons laws of motion, Scalars and Vector, Units and Dimensions, Time rate of change of vectors, Motion in one dimension, Motion under a constant force, Force of friction, Kinematical relations, Simple Harmonic motion, Motion in a plane, Central force, Rotating frame of reference.

Author(s): Sahra Haji

82 Pages

Classical Mechanics by James Sparks

This note is about the Lagrangian and Hamiltonian formulations of classical mechanics. Topics covered includes: Newtonian mechanics, Lagrangian mechanics, Small oscillations, Rigid body dynamics, Hamiltonian mechanics and Levi-Civita alternating symbol.

Author(s): James Sparks

96 Pages

Graduate Classical Mechanics

This note describes the following topics: The Calculus of Variations, Fermat's Principle of Least Time, Hamilton's Principle and Noether's Theorem, Mechanical Similarity, Hamilton's Equations, Poisson Brackets, A New Expression for the Action, Maupertuis' Principle, Canonical Transformations, Liouville's Theorem, The Hamilton-Jacobi Equation, Adiabatic Invariants and Action-Angle Variables, Mathematics for Orbits, Keplerian Orbits, Elastic Scattering, Small Oscillations, Driven Oscillator, One-Dimensional Crystal Dynamics, Parametric Resonance, The Ponderomotive Force, Resonant Nonlinear Oscillations, Rigid Body Motion, Moments of Inertia, Rigid Body Moving Freely, Euler Angles, Eulers Equations, Non Inertial Frame, Coriolis effect, A Rolling Sphere on a Rotating Plane.

Author(s): Michael Fowler

NA Pages

Notes for Classical Mechanics, Govind S. Krishnaswami

This note explains the following topics: Newtonian and Lagrangian mechanics of point particles, Hamiltonian formalism of mechanics, Canonical transformations, Rigid body mechanics, Dynamics of continuous media/deformable bodies: Lagrangian and Eulerian descriptions, Vibrations of a stretched string.

Author(s): Govind S. Krishnaswami

64 Pages

Classical Mechanics III by Prof. Iain Stewart

This lecture note covers Lagrangian and Hamiltonian mechanics, systems with constraints, rigid body dynamics, vibrations, central forces, Hamilton-Jacobi theory, action-angle variables, perturbation theory, and continuous systems. It provides an introduction to ideal and viscous fluid mechanics, including turbulence, as well as an introduction to nonlinear dynamics, including chaos.

Author(s): Prof. Iain W. Stewart

NA Pages

Classical Mechanics II by Joel Franklin

This note covers the following topics: Lagrangian, metric and coordinates, Legendre transform and the Hamiltonian, Canonical transformations, Tensor transformation and the derivative, Parallel transport on a sphere, Infinitesimal transformations, Newtonian gravity, The Riemann tensor and curvature, Matter coupling and variation, Linearized gravity and metric interpretation, Schwarzschild geodesics.

Author(s): Joel Franklin

NA Pages

Lecture Notes on Classical Mechanics

The level of this note is appropriate for an advanced under graduate or a first year graduate course in classical mechanics. This note covers the following topics: introduction to Dynamics, Systems of Particles, one-Dimensional Conservative Systems, linear Oscillations, Calculus of Variations, Lagrangian Mechanics, Noether’s Theorem, Central Forces and Orbital Mechanics, Small Oscillations, Elastic Collisions, Noninertial Reference Frames, Rigid Body Motion and Rotational Dynamics, Continuum Mechanics, Special Relativity and Hamiltonian Mechanics.

Author(s): Daniel Arovas

453 Pages

Classical Mechanics An introductory course (PDF 297p)

This note covers the following topics: Motion in 1 dimension, Motion in 3 dimension, Conservation of energy, Newton's laws of motion, Conservation of momentum, Circular motion, Rotational motion, Angular momentum, Statics, Oscillatory motion, Orbital motion and Wave motion.

Author(s): Richard Fitzpatrick, University of Texas at Austin

297 Pages

Classical Mechanics (Joel A. Shapiro PDF 252p)

This note covers the following topics: Particle Kinematics, Lagrange’s and Hamilton’s Equations, Two Body Central Forces, Rigid Body Motion, Small Oscillations, Hamilton’s Equations, Perturbation Theory and Field Theory.

Author(s): Joel A. Shapiro

252 Pages

Mathematical methods of classical mechanics (PDF 24p)

In this text, the author constructs the mathematical apparatus of classical mechanics from the beginning, examining all the basic problems in dynamics, including the theory of oscillations, the theory of rigid body motion, and the Hamiltonian formalism.

Author(s): Sergei Tabachnikov

24 Pages

Lecture Notes for Classical Mechanics [PDF 14p]

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Author(s): NA

NA Pages

Classical Mechanics Course Material

Currently this section contains no detailed description for the page, will update this page soon.

Author(s): NA

NA Pages