Free Download Theory of Machines Velocity Analysis using Relative Method
Published 5/2024
Created by Shahram Shokouhfar
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 8 Lectures ( 1h 17m ) | Size: 376 MB
Master drawing velocity polygons and dealing with sliders, pins, rolling/sliding contacts, and auxiliary point technique
What you'll learn:
Master how to draw Velocity Polygons for linkages
Take advantage of shortcuts such as the Velocity Image
Analyze challenging linkages containing Sliders and Pin-on-Slot joints
Deal with Rolling and Sliding Contacts
Use the Auxiliary Point technique for Floating Link Mechanisms
Practice simple to complex examples with solutions
Requirements:
A little bit of "Basic Geometry". But no worries! You will learn everything you need to know.
Description:
In this course, you will learn how to perform a Velocity Analysis for a mechanical system. Velocity analysis is one of the most important topics in Theory of Machines. It's a complicated topic, and might take several hours of you to learn and get master. This course is designed as a minimal yet comprehensive collection of what you really need to know for success, and will save you a lot of time. You will find this online course unique and different. Just give it a try and see why.Here is a summary of what you will master on:You will understand the concept of Relative Motion between two or more points.You will master how to draw a Velocity Polygon using the method of Relative Velocities.You will take advantage of shortcuts such as the Velocity Image.You will practice simple to complex problems of linkages containing Sliders and Pin-on-Slot joints.You will learn how to deal with Rolling and Sliding Contacts.You will apply the Auxiliary Point Technique for mechanisms containing a Floating Link.You will have a chance to practice several examples with progressive levels of complexity, and evaluate yourself via reviewing the provided solutions. The motions of the linkages are illustrated for you to easier understand the kinematics of the systems.
Who this course is for:
Engineering students having "Theory of Machines" in their program and look for a crash course to master problem solving strategies
Design engineers who want to master kinematics of mechanisms
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