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Lecture
Diffusion in Fluid Mechanics
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Related lectures (30)
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Diffusion and transport in tokamak plasmas
Covers diffusive transport in tokamak plasmas, including classical and neo-classical diffusion, ambipolar diffusion, and turbulent transport.
Diffusion Coefficients: Understanding Molecular Movement
Covers diffusion coefficients, self-diffusion, and the Stokes-Einstein relation in fluids.
Mass Transfer and Diffusion
Explores mass transfer, diffusion, and transport forces, covering Fick's equations and Nernst-Einstein equation in various materials.
Thermal and Chemical Diffusion
Covers heat and chemical diffusion in isotropic substances dissolved in non-reactive fluids.
Fluid Mechanics: Control Volume Approach
Introduces powerful tools for analyzing fluid mechanics problems, emphasizing mass conservation, Newton's second law, and the continuity equation.
Introduction to Transport Phenomena: Bernoulli's Equation
Covers Bernoulli's equation and its applications in fluid flow problems, including continuity, friction factors, and practical examples.
Diffusion of Neutrons
Covers the solutions of neutron diffusion, including analytical solutions, Laplacian in different geometries, and the physical significance of the diffusion area.
Maximum Entropy Principle: Stochastic Differential Equations
Explores the application of randomness in physical models, focusing on Brownian motion and diffusion.
Thermal Diffusion: Conservation and Fourier Law
Explains conservation of energy and Fourier's law in thermal diffusion.
Transport Phenomena: Introduction
Introduces transport phenomena, covering diffusion and thermal conduction in daily life.
