Search result for Mechanics of materials formula Online Courses & Certifications
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Elements of Structures
by Simona Socrate , Alexie M. Kolpak- 0.0
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10 Weeks
An introduction to the subject “strength of materials. 01x introduces principles of structural analysis and strength of materials in applications to three essential types of elastic load-bearing elements: bars in axial loading, axisymmetric shafts in torsion, and symmetric beams in bending. 1x Mechanics of Deformable Structures: Part 1. 2x Mechanics of Deformable Structures: Part 2....
$99
Mechanics: Motion, Forces, Energy and Gravity, from Particles to Planets
by Prof. Joe Wolfe , Dr Elizabeth J. Angstmann , Mr Sebastian Fricke- 4.7
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Approx. 29 hours to complete
Mechanics begins by quantifying motion, and then explaining it in terms of forces, energy and momentum. By studying mechanics in this course, you will understand with greater depth many of the wonders around you in everyday life, in technology and in the universe at large. 3: Centre of Mass, Elastic and Inelastic Collisions...
Modern Robotics, Course 2: Robot Kinematics
by Kevin Lynch- 4.9
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Approx. 19 hours to complete
Product of Exponentials Formula in the Space Frame (Chapter 4 through 4. Product of Exponentials Formula in the End-Effector Frame (Chapter 4. Lecture Comprehension, Product of Exponentials Formula in the Space Frame (Chapter 4 through 4. Lecture Comprehension, Product of Exponentials Formula in the End-Effector Frame (Chapter 4. Statics of Open Chains (Chapter 5....
Microstructural Evolution of Materials Part 2: Defects and Diffusion
by Juejun Hu , Jessica Sandland- 0.0
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5 Weeks
Discover the principles of point defect evolution that explain materials science phenomena. The course explains how materials develop different microstructure based on different processing techniques, and it relates these microstructures to the properties of the material. Part 1 of the course will introduce important concepts in statistical mechanics that are especially relevant to materials scientists....
$49
Mechanical Behavior of Materials, Part 2: Stress Transformations, Beams, Columns, and Cellular Solids
by Lorna J. Gibson , Jessica Sandland- 0.0
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4 Weeks
Explore materials from the atomic to the continuum level, and apply your learning to mechanics and engineering problems. This course is the second of three in a series of mechanics courses from the Department of Materials Science and Engineering at MIT. How the stiffness and strength of cellular materials depend on their mechanisms of deformation and failure...
$49
Robot Mechanics and Control, Part II
by Frank C. Park , Keunjun Choi , Yongsuk Hong , Wooyoung Kim- 0.0
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4 Weeks
A mathematical introduction to the mechanics and control of robots. This course is Part II of a two-part mathematical introduction to the mechanics and control of robots that can be modeled as kinematic chains. The basics of robot control The product of exponentials formula for forward kinematics...
Advanced Introductory Classical Mechanics
by David E. Pritchard , Zhongzhou Chen , Chris Chudzicki- 0.0
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13 Weeks
If you are a teacher looking to learn better ways to teach your students, or are interested in using some of our MOOC materials in your own classroom—possibly as a private online course for your students—we strongly encourage you to sign up for our teacher’s discussion cohort, a “private discussion room” for teachers to share pedagogical ideas and instructional techniques....
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Introduction to Engineering Mechanics
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 15 hours to complete
This course is an introduction to learning and applying the principles required to solve engineering mechanics problems. The copyright of all content and materials in this course are owned by either the Georgia Tech Research Corporation or Dr. Module 2: Definition of a Force Module 6: Systems of Particles Equilibrium Application of Static Equilibrium Equations...
Animation and CGI Motion
by Eitan Grinspun- 0.0
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12 Weeks
Learn the science behind movie animation from the Director of Columbia’s Computer Graphics Group. How do you predict the motion of materials? artistic control of physically-based animations. Discretizing and integrating Newton’s equations of motion Constrained Lagrangian Mechanics Continuum mechanics Temporal integration of the equations of motion Formulation of mathematical models for mechanical systems...
$249
Fundamentals of Engineering Exam Review
by Dr. Philip Roberts- 4.7
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Approx. 22 hours to complete
The purpose of this course is to review the material covered in the Fundamentals of Engineering (FE) exam to enable the student to pass it. Trusses Method of Sections Centroids and Moments of Inertia Centroids and Moments of Inertia Continued Mechanics of Materials Mechanics of Materials Supplemental Questions Beam Deflections: Methods of Superposition...
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