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Nano-to-Macro Transport Processes >> Content Detail



Lecture Notes



Lecture Notes

Media player software, such as QuickTime® PlayerRealOne™ Player, or Windows Media® Player, is required to run the .mp3 files in this section. RealOne™ Player  software is required to run the .rm files in this section.

Each of the lecture topics below is accompanied by lecture notes in PDF format.  Audio recordings of the original lectures are also included in both MP3 and RealAudio™ streaming audio formats. Note: Lectures 1 and 2 were recorded at a lower fidelity than the subsequent lectures.

These files are also available for download from iTunes®.

LEC #TOPICSMP3 AUDIOSTREAMING AUDIO
1Introduction to Nanotechnology and Nanoscale Transport Phenomena; Microscopic Pictures of Heat Carriers (PDF)(MP3 - 38MB)
2Characteristic Time and Length, Simple Kinetic Theory, Characteristic (PDF)(MP3 - 40.1MB)
3Schrödinger Equation (PDF)(MP3 - 39.1MB)(RM - 16K)
4Quantum Wells, Harmonic Oscillators, Rigid Rotors, and Hydrogen Atoms (PDF)(MP3 - 38.8MB)(RM - 16K)
5Rigid Rotors, Hydrogen Atom, Electronic Levels in One-dimensional Lattice Chain (PDF)(MP3 - 38.9MB)(RM - 16K)
6Electronic Energy Levels in Crystals (PDF)(MP3 - 39.1MB)(RM - 16K)
7Phonon Energy Levels in Crystals, Crystal Structures (PDF)(MP3 - 39.2MB)(RM - 16K)
8Reciprocal Lattice, X-ray (PDF)(MP3 - 36.9MB)(RM - 16K)
9Energy Spectrum in Nanostructures, Density of States, Statistical Distributions (PDF)(MP3 - 33.8MB)(RM - 16K)
10Specific Heat of Molecules, Electrons, Phonons; Blackbody Radiation (PDF)(MP3 - 38.5MB)(RM - 16K)
11Effects of Nanostructures on Energy Storage, Energy Transfer by Waves, Electron Waves (PDF)(MP3 - 39.2MB)(RM - 16K)
12Electromagnetic Waves, Reflection of Waves at a Single Interface (PDF)(MP3 - 40.5MB)(RM - 16K)
13Acoustic Waves, Interference and Tunneling (PDF)(MP3 - 39.3MB)(RM - 16K)
14Laudauer Formalism (PDF)(MP3 - 38.5MB)(RM - 16K)
15Midterm 1
16Transport in Carbon Nanotubes (Guest Lecture Courtesy of Prof. Mildred Dresselhaus, MIT. Used with permission.) (PDF)(MP3 - 39.9MB)(RM - 16K)
17Transition to Particle Description, Louiville Equation (PDF)(MP3 - 37.9MB)(RM - 16K)
18Boltzmann Equation, Relaxation Time Approximation (PDF)(MP3 - 27.5MB)(RM - 16K)
19Fourier Law and Newton's Shear Stress Law (PDF)(MP3 - 38.1MB)(RM - 16K)
20Ohm's Law and Thermoelectric Effect (PDF)(MP3 - 39.1MB)(RM - 16K)
21Nanostructured Thermoelectrics (Guest Lecture Courtesy of Prof. Mildred Dresselhaus, MIT. Used with permission.) (PDF)(MP3 - 38.3MB)(RM - 16K)
22Take Home Exam 2
23Thermoelectric Effect (PDF)(MP3 - 35.6MB)(RM - 16K)
24Classical Size Effects, Parallel Direction (PDF)(MP3 - 38.7MB)(RM - 16K)
25Classical Size Effects, Perpendicular Direction (PDF)(MP3 - 6.1MB)(RM - 16K)
26Liquid, Brownian Motion, Forces and Potentials, Electrokinetics, Surface Tension (PDF)(MP3 - 34MB)(RM - 16K)

 








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