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Engineering Mechanics Statics and Dynamics

Engineering Mechanics Statics and Dynamics. Instructor: Dr. Mahesh V. Panchagnula, Department of Applied Mechanics, IIT Madras. Static and dynamical mechanical systems are the heart of all engineering today. The static systems range from bridges, load bearing members of roofs to fasteners and bolts. Dynamical systems are also ubiquitous in the form of machines which convert electrical energy to mechanical energy. Understanding the equations governing these static and dynamical systems is at the heart of this course. During this course, we will touch upon the theoretical tools that we have available to us in order to be able to analyse these systems. The world around us is full of engineered systems, such as machines, automobiles, bridges and buildings. The objective of this course is to present the basic principles of dynamics and help develop proficiency in applying these principles to formulate and solve dynamics problems. We will also study applications of dynamics concepts to modeling engineered machines. (from nptel.ac.in)

Lecture 25 - Dynamics: Example 2


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Lecture 01 - Introduction
Lecture 02 - Newton's Laws
Lecture 03 - Equilibrium
Lecture 04 - Example 1: Statics
Lecture 05 - Example 2: Rigid Body Systems
Lecture 06 - Example 3: Rigid Body Systems
Lecture 07 - Structural Systems with Rigid Bodies
Lecture 08 - Types of 1-D Structural Elements
Lecture 09 - Axial Members
Lecture 10 - Analysis of the Truss System
Lecture 11 - Stability of Structural Systems
Lecture 12 - Beams - Example 1
Lecture 13 - Beams - BMD and SFD
Lecture 14 - Beams - Loading, Shear and Bending Moment Relations
Lecture 15 - Static Friction
Lecture 16 - Friction - Solving Problems
Lecture 17 - Particle Kinematics
Lecture 18 - Particle Kinematics (Example)
Lecture 19 - Particle Kinematics - Curvilinear Coordinates
Lecture 20 - Rigid Body Kinematics
Lecture 21 - Rigid Body Kinematics (Example 1)
Lecture 22 - Rigid Body Kinematics (Example 2)
Lecture 23 - Dynamics: Introduction
Lecture 24 - Dynamics: Example 1
Lecture 25 - Dynamics: Example 2
Lecture 26 - Dynamics: Example 3
Lecture 27 - Dynamics: Example 4
Lecture 28 - Center of Percussion - Example
Lecture 29 - Impulse/Momentum - Example 1
Lecture 30 - Impulse/Momentum - Example 2
Lecture 31 - Impulse/Momentum - Example 3
Lecture 32 - Impulse/Momentum - Example 4
Lecture 33 - Work Energy Methods - Example 1
Lecture 34 - Work Energy Methods - Example 2
Lecture 35 - Work Energy Methods - Example 3