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nanoHUB-U Thermal Energy at the Nanoscale L1.1: Lattice Structure - Introduction and Atomic Bonding

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Published on Jun 18, 2014

Table of Contents:
00:09 Lecture 1.1: Introduction and Atomic Bonding
00:56 Landauer Transport Formulation
03:19 Heat Flow Terms
05:18 Atomic Bonding
06:59 Harmonic Approximation
08:27 Electronic Bonding
09:44 Atomic Quanta
10:46 Electronic Hybridization
11:25 Bonding in Crystals
14:13 Course Schedule (5 weeks)

This video is part of the nanoHUB-U course "Thermal Energy at the Nanoscale" (http://nanohub.org/courses/te)

Thermal Energy at the Nanoscale, taught by Tim Fisher, is a five-week online course that develops a unified framework for understanding essential physics of nanoscale thermal energy and its important applications, trends, and directions. The course is designed to present this in a way that is accessible with only a very basic knowledge of heat transfer. The course will present an understanding of the fundamental elements of solid-state physics relevant to thermal transport, develop skills to derive continuum physical properties from sub-continuum principles, and apply statistical and physical principles to describe thermal energy transport in modern small-scale materials and devices.

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