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Lecture
Classical Mechanics: Newton, Lagrange, Hamilton
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Related lectures (28)
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Harmonic Oscillator
Explores the harmonic oscillator, covering energy functions, equations of motion, and operator constructions.
Hamiltonian Formulation and Equivalence with Euler-Lagrange
Explores Hamiltonian formulation and its equivalence with Euler-Lagrange equations, illustrated through examples.
Hamiltonian Mechanics: Diatomic Molecules
Explores Hamiltonian mechanics in diatomic molecules, emphasizing polar coordinates and conservation laws.
Canonical Transformations in Analytical Mechanics
Explores canonical transformations, conservation of quantities, and differential equations in analytical mechanics.
Variational Methods: Shortest Time Path Problem
Covers variational methods to find the shortest time path for a particle under gravity.
Material Point Model: Basics
Covers the material point model, initial conditions, and Newton's laws in physics.
Harmonic Oscillator: Algebraic Approach
Explores the classical harmonic oscillator and its algebraic approach to studying the system.
Geometric Locus and Mechanics
Covers geometric locus, cone sections, Kepler's problem, Newton's laws, and conservation laws.
Newton's Laws: Inertia and Motion
Covers Newton's first and second laws, inertia, force, momentum, and action-reaction principle in mechanics.
Lagrange's Method in Mechanics
Covers Lagrange's method in mechanics, focusing on handling constraints and deriving equations of motion.
