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Electrodynamics: In-depth Solutions for Maxwell’s Equations
by Seungbum Hong- 4.8
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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. Previously, we have learned about visualization of fields and solutions which were not time dependent. We will also introduce AC circuits, and how they can be simplified, solved, and applied. Learners will:...
Ideal Gases
by John W. Daily- 4.5
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Approx. 6 hours to complete
Course 3 of Statistical Thermodynamics, Ideal Gases, explores the behavior of systems when intermolecular forces are not important. This done by evaluating the appropriate partition functions for translational, rotational, vibrational and/or electronic motion. We start with pure ideal gases including monatomic, diatomic and polyatomic species. Computational methods for calculating equilibrium properties are introduced....
Particle Dynamics
by Sukyung Park- 0.0
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Approx. 15 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....
Statistical Thermodynamics: Molecules to Machines
by Venkat Viswanathan- 3.9
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Approx. 10 hours to complete
Modern engineering research focuses on designing new materials and processes at the molecular level. Statistical thermodynamics provides the formalism for understanding how molecular interactions lead to the observed collective behavior at the macroscale. This course will develop a molecular-level understanding of key thermodynamic quantities like heat, work, free energy and entropy....
Dense Gases, Liquids and Solids
by John W. Daily- 4.5
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Approx. 5 hours to complete
Course 4 of Statistical Thermodynamics addresses dense gases, liquids, and solids. As the density of a gas is increased, intermolecular forces begin to affect behavior. For small departures from ideal gas behavior, known as the dense gas limit, one can estimate the change in properties using the concept of a configuration integral, a modification to the partition function....
Non-Equilibrium Applications of Statistical Thermodynamics
by John W. Daily- 4.4
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Approx. 8 hours to complete
Course 5 of Statistical Thermodynamics explores three different applications of non-equilibrium statistical thermodynamics. The first is the transport behavior of ideal gases, with some discussion of transport in dense gases and liquids. It starts with simple estimates of the transport properties of an ideas gas. It closes with a discussion of practical sources of transport properties....
Internet of Things Capstone V2: Build a Mobile Surveillance System
by Ganz Chockalingam , Harinath Garudadri- 0.0
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Approx. 5 hours to complete
In the Capstone project for the Internet of Things specialization, you will design and build your own system that uses at least 2 sensors, at least 1 communication protocol and at least 1 actuator. You will have a chance to revisit and apply what you have learned in our courses to achieve a robust, practical and/or fun-filled project....
Modeling and Control of Single-Phase Rectifiers and Inverters
by Dr. Dragan Maksimovic- 0.0
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Approx. 14 hours to complete
This course can also be taken for academic credit as ECEA 5709, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is Course #5 in the Modeling and Control of Power Electronics Specialization. The course is focused on modeling and control of grid-tied power electronics. ● Introduction to Power Electronics (ECEA 5700)...
Introduction to Semiconductor Devices 2
by Keon Jae Lee- 0.0
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Approx. 10 hours to complete
This course aims to provide a general understanding of semiconductor devices. This coures covers the Metal-Semiconductor Contact, Metal-Oxide-Semiconductor (MOS) capapcitor, Metal-Oxide-Semiconductor Field Effect Transistors(MOSFETs), CMOS, Metal-Semiconductor Field Effect Transistors(MESFETs), Memory and Bipolar Junction Transistor (BJT) to improve the overall knowledge of semiconductor industry. The lecture notes can be downloaded with registration, that helps students watch the videos....
Internet of Things: Setting Up Your DragonBoard™ Development Platform
by Ganz Chockalingam , Harinath Garudadri- 4.2
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Approx. 18 hours to complete
Do you want to develop skills to prototype mobile-enabled products using state-of-the-art technologies? In this course you will build a hardware and software development environment to guide your journey through the Internet of Things specialization courses. We will use the DragonBoard™ 410c single board computer (SBC). This course is suitable for a broad range of learners....
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