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2.57 Nano-to-Macro Transport Processes Fall 2004

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2.57 Nano-to-Macro Transport Processes Fall 2004

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MIT OCW

Topics
nanotechnology, nanoscale, transport phenomena, photons, electrons, phonons, energy carriers, energy transport, heat transport, energy levels, statistical behavior, internal energy, waves and particles, scattering, heat generation, Boltzmann equation, classical laws, microtechnology, crystal, lattice, quantum oscillator, laudaurer, nanotube, Louiville equation, X-ray, blackbody, quantum well, Fourier, Newton, Ohm, thermoelectric effect, Brownian motion, surface tension, van der Waals potential.
This course provides parallel treatments of photons, electrons, phonons, and molecules as energy carriers, aiming at fundamental understanding and descriptive tools for energy and heat transport processes from nanoscale continuously to macroscale. Topics include the energy levels, the statistical behavior and internal energy, energy transport in the forms of waves and particles, scattering and heat generation processes, Boltzmann equation and derivation of classical laws, deviation from classical laws at nanoscale and their appropriate descriptions, with applications in nano- and microtechnology.
Addeddate
2009-05-11 18:20:07
Boxid
OL100020310
External_metadata_update
2019-04-11T06:52:20Z
Identifier
MIT2.57F04

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38.2M
Lecture 01: Introduction to Nanotechnology and Nanoscale Transport Phenomena; Microscopic Pictures of Heat Carriers download
40.3M
Lecture 02: Characteristic Time and Length, Simple Kinetic Theory, Characteristic download
39.3M
Lecture 03: Schrödinger Equation download
39.0M
Lecture 04: Quantum Wells, Harmonic Oscillators, Rigid Rotors, and Hydrogen Atoms download
39.1M
Lecture 05: Rigid Rotors, Hydrogen Atom, Electronic Levels in One-dimensional Lattice Chain download
39.3M
Lecture 06: Electronic Energy Levels in Crystals download
39.4M
Lecture 07: Phonon Energy Levels in Crystals, Crystal Structures download
37.1M
Lecture 08: Reciprocal Lattice, X-ray download
34.0M
Lecture 09: Energy Spectrum in Nanostructures, Density of States, Statistical Distributions download
38.7M
Lecture 10: Specific Heat of Molecules, Electrons, Phonons; Blackbody Radiation download
39.4M
Lecture 11: Effects of Nanostructures on Energy Storage, Energy Transfer by Waves, Electron Waves download
40.7M
Lecture 12: Electromagnetic Waves, Reflection of Waves at a Single Interface download
39.5M
Lecture 13: Acoustic Waves, Interference and Tunneling download
38.7M
Lecture 14: Laudauer Formalism download
40.1M
Lecture 16: Transport in Carbon Nanotubes download
38.1M
Lecture 17: Transition to Particle Description, Louiville Equation download
27.7M
Lecture 18: Boltzmann Equation, Relaxation Time Approximation download
38.3M
Lecture 19: Fourier Law and Newton's Shear Stress Law download
39.3M
Lecture 20: Ohm's Law and Thermoelectric Effect download
38.5M
Lecture 21: Nanostructured Thermoelectrics download
35.8M
Lecture 23: Thermoelectric Effect download
38.9M
Lecture 24: Classical Size Effects, Parallel Direction download
6.3M
Lecture 25: Classical Size Effects, Perpendicular Direction download
34.2M
Lecture 26: Liquid, Brownian Motion, Forces and Potentials, Electrokinetics, Surface Tension download
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10.2M
Lecture 03: Schrödinger Equation download
10.1M
Lecture 04: Quantum Wells, Harmonic Oscillators, Rigid Rotors, and Hydrogen Atoms download
10.1M
Lecture 05: Rigid Rotors, Hydrogen Atom, Electronic Levels in One-dimensional Lattice Chain download
10.1M
Lecture 06: Electronic Energy Levels in Crystals download
10.2M
Lecture 07: Phonon Energy Levels in Crystals, Crystal Structures download
9.6M
Lecture 08: Reciprocal Lattice, X-ray download
8.8M
Lecture 09: Energy Spectrum in Nanostructures, Density of States, Statistical Distributions download
10.1M
Lecture 10: Specific Heat of Molecules, Electrons, Phonons; Blackbody Radiation download
10.2M
Lecture 11: Effects of Nanostructures on Energy Storage, Energy Transfer by Waves, Electron Waves download
10.5M
Lecture 12: Electromagnetic Waves, Reflection of Waves at a Single Interface download
10.3M
Lecture 13: Acoustic Waves, Interference and Tunneling download
10.1M
Lecture 14: Laudauer Formalism download
10.4M
Lecture 16: Transport in Carbon Nanotubes download
9.9M
Lecture 17: Transition to Particle Description, Louiville Equation download
7.2M
Lecture 18: Boltzmann Equation, Relaxation Time Approximation download
9.9M
Lecture 19: Fourier Law and Newton's Shear Stress Law download
10.2M
Lecture 20: Ohm's Law and Thermoelectric Effect download
10.0M
Lecture 21: Nanostructured Thermoelectrics download
9.3M
Lecture 23: Thermoelectric Effect download
10.1M
Lecture 24: Classical Size Effects, Parallel Direction download
10.3M
Lecture 25: Classical Size Effects, Perpendicular Direction download
8.9M
Lecture 26: Liquid, Brownian Motion, Forces and Potentials, Electrokinetics, Surface Tension download
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