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Displays
by Juliet Gopinath- 4.3
Approx. 8 hours to complete
This course can also be taken for academic credit as ECEA 5607, part of CU Boulder’s Master of Science in Electrical Engineering degree. Displays Course Introduction The course will dive deep into electronic display devices, including liquid crystals, electroluminescent, plasma, organic light emitting diodes, and electrowetting based displays. Course Learning Outcomes...
Design of High-Performance Optical Systems
by Robert McLeod , Amy Sullivan- 4.7
Approx. 23 hours to complete
This course can also be taken for academic credit as ECEA 5602, part of CU Boulder’s Master of Science in Electrical Engineering degree. Optical instruments are how we see the world, from corrective eyewear to medical endoscopes to cell phone cameras to orbiting telescopes. Chromatic Aberrations Introduction to the course Introduction to Chromatic Aberration...
Sensor Manufacturing and Process Control
by James Zweighaft , Jay Mendelson- 4.6
Approx. 55 hours to complete
"Sensor Manufacturing and Process Control" can also be taken for academic credit as ECEA 5343, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is our fourth course in our specialization on Embedding Sensor and Motors. Our second and third courses give you three hands-on lab experiments using the kit....
Physics 101 - Rotational Motion and Gravitation
by Jason Hafner- 0.0
Approx. 27 hours to complete
This course serves as an introduction to the physics of rotational motion and gravitation. Upon completion, learners will have an understanding of how mathematical laws and conservation principles describe the motions and interactions of objects all around us. They will gain experience in solving physics problems with tools such as graphical analysis, algebra, vector analysis, and calculus....
Robotics: Capstone
by Sid Deliwala- 4.6
Approx. 26 hours to complete
In our 6 week Robotics Capstone, we will give you a chance to implement a solution for a real world problem based on the content you learnt from the courses in your robotics specialization. It will also give you a chance to use mathematical and programming methods that researchers use in robotics labs....
Protecting the World: Introducing Corrosion Science and Engineering
by Prof Robert Akid , Prof Stuart Lyon , Adam Stephenson , Dr Robert Lindsay , Dr Michele Curioni , Dr Nick Stevens, BSc PhD- 4.6
Approx. 12 hours to complete
If you have ever encountered rusty car bodies, leaking pipes, tarnished silverware or the green patina of a copper roof then you have experienced corrosion in action. This course, from the Corrosion@Manchester team in collaboration with AkzoNobel, will teach you why metals corrode, what the environmental consequences are, how much corrosion costs and how corrosion can be controlled....
MOS Transistors
by Yannis Tsividis- 4.6
Approx. 18 hours to complete
PLEASE NOTE: This version of the course has been formed from an earlier version, which was actively run by the instructor and his teaching assistants. Some of what is mentioned in the video lectures and the accompanying material regarding logistics, book availability and method of grading may no longer be relevant to the present version....
Pressure, Force, Motion, and Humidity Sensors
by James Zweighaft , Jay Mendelson- 4.8
Approx. 24 hours to complete
"Pressure, Force, Motion, and Humidity Sensors" can also be taken for academic credit as ECEA 5342, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is our third course in our specialization on Embedding Sensor and Motors. To get the most out of this course, you should first take our first course entitled Sensors and Sensor Circuits....
Diode - pn Junction and Metal Semiconductor Contact
by Wounjhang Park- 4.4
Approx. 15 hours to complete
This course can also be taken for academic credit as ECEA 5631, part of CU Boulder’s Master of Science in Electrical Engineering degree. This course presents in-depth discussion and analysis of pn junction and metal-semiconductor contacts including equilibrium behavior, current and capacitance responses under bias, breakdown, non-rectifying behavior, and surface effect....
Silicon Thin Film Solar Cells
by Pr. Bernard Drevillon , Erik Johnson- 4.3
Approx. 5 hours to complete
This course consists of a general presentation of solar cells based on silicon thin films. It is the third MOOC of the photovoltaic series of Ecole polytechnique on Coursera. The general aspects of the photovoltaic field are treated in "Photovoltaic Solar Energy". After a brief presentation of solar cells operation, thin film semiconductors are described here....