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Micro and Nanoscale Energy Transport

Micro and Nanoscale Energy Transport. Instructor: Dr. Arvind Pattamatta, Department of Mechanical Engineering, IIT Madras. This course will address the fundamentals of Micro and Nano scale transport in various fields of current interest such as thermal dissipation from electronic devices, thermoelectric energy conversion devices and Micro electro mechanical systems and sensors (MEMS). Students from diverse backgrounds such as Mechanical, Aerospace, and Electrical engineering as well as from physical sciences may find this course useful. (from nptel.ac.in)

Lecture 40 - Nano Fluid Heat Transfer 2


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Introduction
Lecture 01 - Overview to Micro/Nanoscale Energy Transport
Lecture 02 - Overview to Micro/Nanoscale Energy Transport (cont.)
Lecture 03 - Some Applications of Micro/Nanoscale Energy Transport
Lecture 04 - Continuum Heat Transfer and its Limitation
Lecture 05 - Energy Carriers at Micro/Nanoscale and their Attributes
Lecture 06 - Microscopic Contributes to Internal Energy of a System
Fundamentals of Quantum Mechanics
Lecture 07 - Fundamentals of Quantum Mechanics 1
Lecture 08 - Fundamentals of Quantum Mechanics 2
Lecture 09 - Fundamentals of Quantum Mechanics 3
Lecture 10 - Fundamentals of Quantum Mechanics 4
Lecture 11 - Fundamentals of Quantum Mechanics 5
Fundamentals of Solid State Physics
Lecture 12 - Fundamentals of Solid State Physics 1
Lecture 13 - Fundamentals of Solid State Physics 2
Lecture 14 - Fundamentals of Solid State Physics 3
Lecture 15 - Fundamentals of Solid State Physics 4
Fundamentals of Statistical Thermodynamics
Lecture 16 - Fundamentals of Statistical Thermodynamics 1
Lecture 17 - Fundamentals of Statistical Thermodynamics 2
Lecture 18 - Fundamentals of Statistical Thermodynamics 3
Lecture 19 - Fundamentals of Statistical Thermodynamics 4
Lecture 20 - Kinetic Theory of Energy Carriers 1
Lecture 21 - Kinetic Theory of Energy Carriers 2
Nanoscale Transport Processes
Lecture 22 - Non-equilibrium Energy Transport at Nanoscales: Boltzmann Transport Equation
Lecture 23 - Boltzmann Transport Equation under the Relaxation Time Approximation
Lecture 24 - Derivation of Continuum Laws from Boltzmann Transport Equation 1
Lecture 25 - Derivation of Continuum Laws from Boltzmann Transport Equation 2
Lecture 26 - Derivation of Continuum Laws from Boltzmann Transport Equation 3
Lecture 27 - Nanoscale Energy Transport in a Thin Film 1
Lecture 28 - Nanoscale Energy Transport in a Thin Film 2
Lecture 29 - Nanoscale Energy Transport in a Thin Film 3
Microscale Transport Processes
Lecture 30 - Gas Flow and Heat Transport in Microchannels 1
Lecture 31 - Gas Flow and Heat Transport in Microchannels 2
Lecture 32 - Single Phase Liquid Flow and Heat Transport in Microchannels 1
Lecture 33 - Single Phase Liquid Flow and Heat Transport in Microchannels 2
Lecture 34 - Fundamentals of Electro Kinetics in Microchannels 1
Lecture 35 - Fundamentals of Electro Kinetics in Microchannels 2
Lecture 36 - Fundamentals of Electro Kinetics in Microchannels 3
Lecture 37 - Two Phase Heat Transfer in Microchannels 1
Lecture 38 - Two Phase Heat Transfer in Microchannels 2
Nano Fluids
Lecture 39 - Nano Fluid Heat Transfer 1
Lecture 40 - Nano Fluid Heat Transfer 2
Measurement Techniques in Micro and Nanoscale Heat Transfer
Lecture 41 - Measurement Techniques in Micro and Nanoscale Heat Transfer 1
Lecture 42 - Measurement Techniques in Micro and Nanoscale Heat Transfer 2