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Mastering Statics
by Lambros Katafygiotis- 4.7
Approx. 21 hours to complete
Course Overview: https://www. youtube. com/watch? v=sdom7zBIfkE Statics is the most fundamental course in Mechanics. In this course, you will learn the conditions under which an object or a structure subjected to time-invariant (static) forces is in equilibrium - i. e. the conditions under which it remains stationary or moves with a constant velocity-....
3D CAD Fundamental
by 康仕仲- 4.7
Approx. 9 hours to complete
There have many three-dimensional shape of the object in your brain that are wanted to share, but do not know how to express? How to "sketch" the three-dimensional image in your mind? 3D modeling technology can help us construct the most intuitive and understandable three-dimensional model. Step-by-step teach you how to use Sketchup's 3D modeling software technology....
Mechanics of Materials II: Thin-Walled Pressure Vessels and Torsion
by Dr. Wayne Whiteman, PE- 4.8
Approx. 9 hours to complete
This course explores the analysis and design of thin-walled pressure vessels and engineering structures subjected to torsion. ------------------------------------------------ The copyright of all content and materials in this course are owned by either the Georgia Tech Research Corporation or Dr. Wayne Whiteman. Interested parties may contact Dr. Wayne Whiteman directly for information regarding the procedure to obtain a non-exclusive license....
Aerospace materials
by Елена Николаева- 4.6
Approx. 11 hours to complete
The course involves the study of the main types of metallic materials used in the manufacture of aerospace parts, their properties and technological aspects of production. The course examines the dependence of strength and other properties of titanium, aluminum alloys and high-strength steels on their composition, production and machining technologies. The course provides:...
Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories
by Dr. Wayne Whiteman, PE- 4.8
Approx. 8 hours to complete
This course explores the analysis and design of engineering structures considering factors of deflection, buckling, combined loading, & failure theories ------------------------------------------------- The copyright of all content and materials in this course are owned by either the Georgia Tech Research Corporation or Dr. Wayne Whiteman. Interested parties may contact Dr. Welcome Course Introduction...
Robotics: Perception
by Kostas Daniilidis , Jianbo Shi- 4.4
Approx. 33 hours to complete
How can robots perceive the world and their own movements so that they accomplish navigation and manipulation tasks? In this module, we will study how images and videos acquired by cameras mounted on robots are transformed into representations like features and optical flow. Geometry of Image Formation Introduction Camera Modeling Single View Geometry...
Robotics: Computational Motion Planning
by CJ Taylor- 4.3
Approx. 11 hours to complete
Robotic systems typically include three components: a mechanism which is capable of exerting forces and torques on the environment, a perception system for sensing the world and a decision and control system which modulates the robot's behavior to achieve the desired ends. Throughout the course, we will discuss the aspects of the problem that make planning challenging....
Fundamentals of waves and vibrations
by Emmanuel de Langre , Olivier Doaré , Jean François Semblat- 4.5
Approx. 6 hours to complete
See our course teaser on http://goo. gl/SU25sF Waves are everywhere. On water of course, but also in the air as you hear a plane, and under your feet during an earthquake certainly. Vibrations, too, are everywhere In your bike as you go over a bump, in you guitar as you play, and of course in your smartphone....
Ideal Gases
by John W. Daily- 4.5
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
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....