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Lecture
Stellar Orbits and Potential Theory
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Related lectures (31)
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Lagrangian Mechanics: Symmetries and Conservation Laws
Explores Lagrangian mechanics, symmetries, conservation laws, and the Hamiltonian concept.
Canonical Transformations in Analytical Mechanics
Explores canonical transformations, conservation of quantities, and differential equations in analytical mechanics.
Symmetries of Newtonian Mechanics
Explores the symmetries of Newtonian Mechanics, Lagrangian mechanics, and the conservation of energy.
Quantum Harmonic Oscillator
Explores the classical dynamics and quantization of a harmonic LC oscillator.
Galaxy Disk Models: Orbits and Potentials
Explores galaxy disk models, orbits, potentials, and circular velocity in disk galaxies.
Hamiltonian Formulation and Equivalence with Euler-Lagrange
Explores Hamiltonian formulation and its equivalence with Euler-Lagrange equations, illustrated through examples.
Thermodynamic Potentials: Lagrangian Mechanics and Energy Relations
Discusses the transition from Hamiltonian to Lagrangian mechanics, focusing on thermodynamic potentials and their implications in energy transformations.
Quantum Mechanics: Path Integral Representation
Covers the path integral representation in quantum mechanics and the dynamics of systems described by Lagrangian.
Constraints and Lagrange
Covers constraints, Lagrange equations, generalized coordinates, cyclic coordinates, conservation laws, and Hamilton formalism.
Analytical Mechanics: Lagrange Formalism
Covers the limitations of Lagrange formalism and the transition to Hamiltonian formalism for dynamic variables.
