Search result for Materials science and engineering pdf Online Courses & Certifications
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Electrodynamics: Analysis of Electric Fields
by Seungbum Hong- 4.8
Approx. 11 hours to complete
In addition, we will introduce polarization, dielectrics, and how electric fields create dipoles. Furthermore, this course uniquely provides the link between the knowledge of electrodynamics and its practical applications to research in materials science, information technology, electrical engineering, chemistry, chemical engineering, energy storage, energy harvesting, and other materials related fields. 2-2 Colloidal Particles and Grid Fields...
Mechanical Behavior of Materials, Part 3: Time Dependent Behavior and Failure
by Lorna J. Gibson , Jessica Sandland- 0.0
6 Weeks
Explore materials from the atomic to the continuum level, and apply your learning to mechanics and engineering problems. This course is the third of three in a series of mechanics courses from the Department of Materials Science and Engineering at MIT. The relationship between the behavior of materials at an atomistic level and thecontinuum response of materials...
$49
Microstructural Evolution of Materials Part 1: Statistical Mechanics
by Juejun Hu , Jessica Sandland- 0.0
5 Weeks
Discover the principles of statistical mechanics that explain materials science phenomena. The course explains how materials develop different microstructure based on different processing techniques, and it relates these microstructures to the properties of the material. Microstructural Evolution of Materials is intended for engineering and science students and professionals with an interest in materials statistics, kinetics, and microstructural transformations....
$49
Electrodynamics: In-depth Solutions for Maxwell’s Equations
by Seungbum Hong- 4.8
Approx. 19 hours to complete
This course is the fourth course in the Electrodynamics series, and is directly proceeded by Electrodynamics: Electric and Magnetic Fields. Furthermore, this course uniquely provides the link between the knowledge of electrodynamics and its practical applications to research in materials science, information technology, electrical engineering, chemistry, chemical engineering, energy storage, energy harvesting, and other materials related fields....
Microstructural Evolution of Materials Part 2: Defects and Diffusion
by Juejun Hu , Jessica Sandland- 0.0
5 Weeks
Discover the principles of point defect evolution that explain materials science phenomena. The course explains how materials develop different microstructure based on different processing techniques, and it relates these microstructures to the properties of the material. Microstructural Evolution of Materials is intended for engineering and science students and professionals with an interest in materials statistics, kinetics, and microstructural transformations....
$49
Nuclear Energy: Science, Systems and Society
by Jacopo Buongiorno , Anne White , Michael Short , John Parsons- 0.0
11 Weeks
Nuclear Energy: Science, Systems and Society offers an introduction to the basic physics of nuclear energy and radiation, with an emphasis on the unique attributes and challenges of nuclear energy as a low-carbon solution. Peaceful applications of radiation to help humankind, such as reactors for materials science research, nuclear medicine, security initiatives and quantum technology, will be introduced....
$75
Mechanical Behavior of Materials, Part 1: Linear Elastic Behavior
by Lorna J. Gibson , Jessica Sandland- 0.0
5 Weeks
Explore materials from the atomic to the continuum level, and apply your learning to mechanics and engineering problems. All around us, engineers are creating materials whose properties are exactly tailored to their purpose. This course is the first of three in a series of mechanics courses from the Department of Materials Science and Engineering at MIT....
$49
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Mechanical Behavior of Materials, Part 2: Stress Transformations, Beams, Columns, and Cellular Solids
by Lorna J. Gibson , Jessica Sandland- 0.0
4 Weeks
Explore materials from the atomic to the continuum level, and apply your learning to mechanics and engineering problems. This course is the second of three in a series of mechanics courses from the Department of Materials Science and Engineering at MIT. How the stiffness and strength of cellular materials depend on their mechanisms of deformation and failure...
$49
Electrodynamics: Electric and Magnetic Fields
by Seungbum Hong- 4.8
Approx. 12 hours to complete
This course is a continuation of Electrodynamics: An Introduction and Electrodynamics: Analysis of Electric Fields. Furthermore, this course uniquely provides the link between the knowledge of electrodynamics and its practical applications to research in materials science, information technology, electrical engineering, chemistry, chemical engineering, energy storage, energy harvesting, and other materials related fields....
Semiconductor Fundamentals
by Mark S. Lundstrom- 0.0
6 Weeks
The material will primarily appeal to electrical engineering students whose interests are in applications of semiconductor devices in circuits and systems. Semiconductor technology developers may find it a useful starting point for diving deeper into condensed matter physics, statistical mechanics, thermodynamics, and materials science. For further information and other courses offered and planned, please see the Nano-Science and Technology page....
$750