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Diffusion in Crystals: Atomic Theory and Random Motion
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Mass Transfer: Diffusion and Transport
Explores mass transfer through diffusion mechanisms and transport forces.
Diffusion and transport in tokamak plasmas
Covers diffusive transport in tokamak plasmas, including classical and neo-classical diffusion, ambipolar diffusion, and turbulent transport.
Diffusion and Convection Transport
Explores the microscopic description of diffusion and convection transport, emphasizing similarities between chemical diffusion and heat conduction.
Untitled
Diffusion in Fluid Mechanics
Explores diffusion in fluid mechanics, discussing how molecules transport in a fluid without flow and deriving the convection-diffusion equation.
Diffusion: Fundamental Concepts
Covers the fundamental concepts of diffusion, including Fick's laws and temperature dependence, demonstrated with examples.
Brownian Motion: From Molecules to Cells
Explores the core concepts of Brownian motion, from molecules to cells, including its history, hypothesis versus description, Langevin's solution, and methods for measuring Brownian motion.
Diffusion and Transport in Tokamak Plasmas
Explores diffusive transport, classical and neo-classical diffusion, and turbulent transport in tokamak plasmas.
Diffusion Coefficients: Self-Diffusion and Suspended Particles
Explores diffusion coefficients for self-diffusion and suspended particles in fluids.
Diffusion: Atomic Movement and Material Evolution
Covers the fundamental concept of diffusion in materials, emphasizing atomic movement and its impact on material properties and evolution.
