Search result for Engineering Online Courses & Certifications
FollowFilter ![]()
Filter ![]()
Showing 269 courses
By Category ![]()
By Subject![]()
By Language![]()
By Duration![]()
By Price![]()
Get Course Alerts by Email
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....
Fatigue Failure in Different Fields of Engineering
by Kazem Reza Kashyzadeh- 0.0
-
![]()
![]()
![]()
![]()
![]()
Approx. 23 hours to complete
In recent years, owing to global competition and greater need of customers for safety, durability, and reliability of products, there has been a considerable tendency to improve quality in various industries. The aim of this course is to introduce MSc graduates, Ph. D. The topics cover common challenges that engineers should consider to study the causes of component failure....
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. Here, we will introduce magnetostatics and relate it to the material we learned previously. In addition, we will cover the basics of the electromotive force and how it can be used to build different devices. Learners will...
Construction and operation of pumps for nuclear power plants
by Slobodchuk Victor Ivanovich , Rabotaev Vladimir Grigorievich- 0.0
-
![]()
![]()
![]()
![]()
![]()
Approx. 24 hours to complete
Pumps are widely used in industry, agriculture and in public utilities. However, it is in power engineering that pumps find the widest range of applications. The technological systems of nuclear and thermal power plants involve transferring large quantities of fluids with different physical and chemical properties at different pressure and temperature....
Ferrous Technology II
by Kim, Sung-Joon , Kang, Youn-Bae , Suh, Dong Woo , Kim, Nack Joon- 4.8
-
![]()
![]()
![]()
![]()
![]()
Approx. 8 hours to complete
Steel, ever-evolving material, has been the most preeminent of all materials since it can provide wide range of properties that can meet ever-changing requirements. In this course, we explore both fundamental and technical issues related to steels, including iron and steelmaking, microstructure and phase transformation, and their properties and applications. Microstructure and phase transformation in steels I: Fundamentals...
Current-Mode Control
by Dr. Dragan Maksimovic- 0.0
-
![]()
![]()
![]()
![]()
![]()
Approx. 14 hours to complete
This course can also be taken for academic credit as ECEA 5708, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is Course #4 in the Modeling and Control of Power Electronics course sequence. The course is focused on current-mode control techniques, which are very frequently applied in practical realizations of switched-mode....
Electrodynamics: Analysis of Electric Fields
by Seungbum Hong- 4.8
-
![]()
![]()
![]()
![]()
![]()
Approx. 11 hours to complete
This course is a continuation of Electrodynamics: An Introduction. Here, we will cover different methods of calculating an electric field. In addition, we will introduce polarization, dielectrics, and how electric fields create dipoles. Learners will • Be able to apply symmetry and other tools to calculate the electric field. • Understand what susceptibility, polarization, and dipoles are....
Rigid Body Dynamics
by Sukyung Park- 4.6
-
![]()
![]()
![]()
![]()
![]()
Approx. 14 hours to complete
This course teaches dynamics, one of the basic mechanics subjects of Mechanical Engineering. Students would be able to organize their knowledge about force and motion, work-energy, impulse-momentum in view of Newton's 2nd law and its integration over time and displacement. The Engineering Dynamics consists of two parts: particle dynamics and rigid body dynamics....
Previous
