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Electrodynamics: An Introduction
by Seungbum Hong- 4.7
Approx. 13 hours to complete
The depth and breadth of electromagnetism, the foundation for many fields including materials science, electrical engineering, and physical chemistry, requires a long, steep, and steady learning curve. This course aims to bridge the gap between the fundamental principles taught in electromagnetism and its practical application to specific fields such as materials, physics, and chemistry related to energy storage and harvesting....
Plastic electronics
by Gilles Horowitz- 4.6
Approx. 6 hours to complete
Plastic electronics is a concept that emerged forty years ago, with the discovery of electrically conductive polymers. Ten years later, the first electronic devices using organic solids in place of the ubiquitous inorganic semiconductors were realised. The best achievement of plastic electronics is constituted by Organic Light-Emitting Diodes (OLEDs) that equip the display of many smartphones, and even TV sets....
Fundamentals of particle accelerator technology (NPAP MOOC)
by Anders Karlsson , Pauli Heikkinen , Franz Bødker , Maja Olvegård- 4.6
Approx. 26 hours to complete
Did you know that particle accelerators play an important role in many functions of todays society and that there are over 30 000 accelerators in operation worldwide? A few examples are accelerators for radiotherapy which are the largest application of accelerators, altogether with more than 11000 accelerators worldwide. Here protons are accelerated to very large energies....
Recent Advances in Freeform Electronics
by Jang-Ung Park- 4.6
Approx. 12 hours to complete
In this course, the learners will understand fundamental basic backgrounds of p-n junctions, diodes and MOSFETs (Metal Oxide Semiconductor Field Effect Transistors). Also, recent approaches on flexible / stretchable electronics, transparent optoelectronics, and printed electronics using one dimensional or two dimensional nanomaterials will be introduced. Fundamentals for Electronic Devices Introduction Video...
Introduction to Satellite Communications
by Laurent Franck , Tarik Benaddi , Julien Fasson , Nathalie Thomas , Marie-Laure Boucheret- 4.6
Approx. 33 hours to complete
How is a satellite built? How do they fly? How do they communicate and how does the network operate? You will get all the answers in this course from teachers and researchers from three schools associated with Institut Mines-Télécom. The course is made of : teaching videos, equipment demonstrations and simulation programs....
Internet of Things: How did we get here?
by Harinath Garudadri , Ganz Chockalingam- 3.9
Approx. 21 hours to complete
It is hard to imagine life without your Smartphone – you have come to rely on it so much – for your work; to stay in touch with family and friends; to capture and share those special moments; to find your way around in a new neighborhood. Did you ever wonder how and when all this happened?...
Nanophotonics and Detectors
by Juliet Gopinath- 4.1
Approx. 15 hours to complete
This course can also be taken for academic credit as ECEA 5606, part of CU Boulder’s Master of Science in Electrical Engineering degree. Nanophotonics and Detectors Introduction This course dives into nanophotonic light emitting devices and optical detectors, including metal semiconductors, metal semiconductor insulators, and pn junctions. We will also cover photoconductors, avalanche photodiodes, and photomultiplier tubes....
Цифровая обработка сигналов Часть 2. Дискретные и цифровые фильтры
by Сергиенко Александр Борисович- 4.5
Approx. 37 hours to complete
Курс разработан Санкт-Петербургским государственным электротехническим университетом «ЛЭТИ» им. В. И. Ульянова при поддержке Санкт-Петербургского политехнического университета Петра Великого. «Дискретные и цифровые фильтры» — второй курс специализации, посвященной цифровой обработке сигналов. В предыдущем курсе мы рассмотрели лишь самые простые вещи, связанные с концепцией дискретного времени — свойства дискретных сигналов и линейных стационарных дискретных систем....
Optique non-linéaire
by Manuel Joffre , Vincent Kemlin- 4.7
Approx. 25 hours to complete
Introduction à l'optique non-linéaire, qui correspond au régime d'interaction laser-matière que l'on peut explorer à l'aide de lasers intenses, comme par exemple les lasers femtosecondes. De l'optique lineaire à l'optique non-lineaire Introduction Modèle simple de la susceptibilité linéaire (1/2) Modèle simple de la susceptibilité linéaire (2/2) Absorption et indice de réfraction (1/3)...
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...