Introduction to Materials Science: Diffusion Phenomena

About
Privacy
Disclaimer

Graph Chatbot

Related lectures (31)

Continuity Equations in Semiconductor Physics

Covers continuity equations in semiconductor physics, focusing on charge conservation and the behavior of charge carriers in non-equilibrium conditions.

Transport Phenomena: Onsager Relations and Heat Equation

Covers Onsager relations, diffusion equation, Fourier's law, electrical transport, Ohm's law, and thermophoresis.

Transport Phenomena: Introduction

Covers the introduction to transport phenomena, diffusion, and thermal conduction in daily life.

Diffusion and Transport in Tokamak Plasmas

Explores diffusive transport, classical and neo-classical diffusion, and turbulent transport in tokamak plasmas.

Diffusion in Alloys

Explores diffusion in alloys, covering chemical diffusion, phase separation, and ionic crystals.

Transport Phenomena: Introduction

Introduces transport phenomena, covering diffusion and thermal conduction in daily life.

Maximum Entropy Principle: Stochastic Differential Equations

Explores the application of randomness in physical models, focusing on Brownian motion and diffusion.

Phase Transformations in Al-Cu Alloys: Microstructure and Kinetics

Covers the Al-Cu binary system, focusing on phase transformations and their impact on microstructure and mechanical properties.

Thermal and Chemical Diffusion

Covers heat and chemical diffusion in isotropic substances dissolved in non-reactive fluids.

Diffusion in Cells

Explores diffusion in cells, focusing on molecular movement and the impact of size and environment.

Diffusion in Fluid Mechanics

Explores diffusion in fluid mechanics, discussing how molecules transport in a fluid without flow and deriving the convection-diffusion equation.

Page 2 of 2