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Transcript
Physics 200B Mechanics II Winter 2013 TOPICS A.) Hamiltonian Mechanics a.) b.) c.) d.) e.) f.) Formulation of Hamiltonian Mechanics, Derivation of Eikonal Theory, Liouville’s Theorem Hamilton-Jacobi Theory, Integrability, Semi-Classical Limit of Quantum Mechanics Adiabatic Invariants Poisson Brackets Canonical Transformations, Transition to Quantum Mechanics Formal structure of Hamiltonian Mechanics of fields B.) Basic Continuum Mechanics i.) Strings and Membranes a.) b.) c.) d.) e.) ii.) Basics of Fluid Dynamics a.) b.) c.) d.) e.) iii.) String Lagrangian, Hamiltonian, EOMs D’Alembert’s Solution Energy Flux, Energy and Momentum Density, Balance Theorems Eigenfunctions, Variational Principles, Green’s Function, Perturbation Theory Membranes-Formulation and examples Conservation Laws and Ideal Fluid Equations, Viscous Fluids Vorticity, Induction Equation, Kelvin’s Theorem Potential Flow, Induced Mass Surface Waves – Basic model, dispersion relation Wave Patterns, Stationary Phase, etc. Hydrodynamic Stability – An Introduction a.) Basic Ideas on Stability b.) Ideal Examples: Rayleigh-Taylor Instability, Kelvin-Helmholtz Instability c.) Convection-Schwarzchild Criterion iv.) Acoustics a.) b.) c.) d.) Sound Waves Eikonal Theory, Ray Equations Green’s Function, Helmholtz Integral Acoustic Radiation – Oscillating Sphere – Piston e.) Diffraction, Scattering – Kirchoff Approximation – Scattering by Cylinder f.) Shocks – Traffic Flow – Gas Dynamics (introduction) v.) Non-Ideal Fluids – the Role of Dissipation a.) Heat Conduction b.) Viscous Fluids 1 C.) Selected Topics in Statistical Dynamics i.) Brownian Motion, Langevin Equation a.) Langevin Equation, concept of Random force b.) Diffusion, Drag, Einstein Relations, Fluctuation-Dissipation Theorem c.) Fokker-Planck Equation, Smoluchowski Equation, applications ii.) Boltzmann Equation, Kinetic Theory a.) b.) c.) d.) Boltzmann Collision Operator Boltzmann Equation, H-theorem Transport coefficients-Simple Examples From Boltzmann to Fokker-Planck D.) Selected Topics in Nonlinear Dynamics (Time Permitting) i.) Simple Nonlinear Oscillators a.) Duffing Oscillator b.) Forced Duffing Oscillator, Mode Jumping Bifurcations c.) Equation and Limit Cycles Van-der-Pol ii.) Lorenz system a.) Formal Theory of Rayleigh-Benard Instability b.) Lorenz Model: Derivation c.) Lorenz Model: Analysis iii.) Logistics, Logistic Fronts a.) Simple Ideas on Lotka-Volterra Systems b.) Logistic System, Logistic Map, Period Doubling c.) Fisher Equation, Fisher Fronts 2
