Search result for Courses taught by Jessica Sandland
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The Iterative Innovation Process
by Eugene Fitzgerald , Andreas Wankerl , Arne Hessenbruch , Jessica Sandland- 0.0
8 Weeks
Experience the iterative innovation process and learn how you can use this process to develop your own innovative ideas. 3. 086x: The Iterative Innovation Process draws heavily upon the course material used in 3. 086x: Innovation and Commercialization. Though there have been significant changes to the course, this course is not an entirely new edX offering....
$99
Structure of Materials
by Silvija Gradečak , Jessica Sandland- 0.0
16 Weeks
Discover the structure of the materials that make up our modern world and learn how this underlying structure influences the properties and performance of these materials. Structure determines so much about a material: its properties, its potential applications, and its performance within those applications. The course begins with an introduction to amorphous materials....
$150
Thermodynamics of Materials
by Rafael Jaramillo , Jessica Sandland , John Harrold- 0.0
16 Weeks
Thermodynamics of Materials describes the fundamental competition between energy and disorder that determines the state of materials at equilibrium. This course describes the fundamental competition between energy and disorder that determines the state of materials at equilibrium. It introduces the laws of thermodynamics, the concept of equilibrium, and thermodynamic potentials. How to predict the equilibrium state of reacting systems....
$150
Electrical, Optical & Magnetic Materials and Devices
by Caroline Ross , Jessica Sandland- 0.0
16 Weeks
In 3. 15x we will explore the electrical, optical, and magnetic properties of materials and learn how electronic devices are designed to exploit these properties. This course will explain the basis of the electrical, optical, and magnetic properties of materials including semiconductors, metals, organics and insulators, and will show how devices are built to take advantage of those properties....
$150
Electronic, Optical, and Magnetic Properties of Materials
by Polina Anikeeva , Jessica Sandland- 0.0
15 Weeks
Discover the physical principles behind diodes, light-emitting devices, and memories. This course from MIT’s Department of Materials Science and Engineering introduces the fundamental principles of quantum mechanics, solid state physics, and electricity and magnetism. Discover the quantum mechanical origins of materials properties Explain the origin of electronic bands in semiconductors...
$150
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
Structural Materials: Selection and Economics
by Thomas Eagar , Jessica Sandland- 0.0
3 Weeks
Billions of tons of structural materials, such as steel, aluminum, and titanium are used every year. Learn where, why, and when they are used. From skyscrapers to transportation infrastructure, structural materials dominate the human landscape. Learning the principles that govern their selection is essential for any aspiring or practicing engineer. Image (c) Eagar, Thomas...
$50
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. All around us, engineers are creating materials whose properties are exactly tailored to their purpose. This course is the second of three in a series of mechanics courses from the Department of Materials Science and Engineering at MIT....
$49
Cellular Solids Part 1: Structures, Properties and Engineering Applications
by Lorna J. Gibson , Jessica Sandland- 0.0
9 Weeks
Learn how to model the mechanical properties of honeycombs and foams and to apply the models to material selection in engineering design. In this engineering course, we will explore the processing and structure of cellular solids as they are created from polymers, metals, ceramics, glasses and composites. Cellular Solids Part 2: Applications in Medicine...
$99
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. All around us, engineers are creating materials whose properties are exactly tailored to their purpose. This course is the third of three in a series of mechanics courses from the Department of Materials Science and Engineering at MIT....
$49