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Lec01- Introduction to Dynamics (Theory) and Prerequisite Content Review

Lec02 - Particle Kinematics (Theory) for Rectilinear Motion

Lec03 - Particle Kinematics (Examples) for Rectilinear Motion

Lec04 - Particle Kinematics (Theory & Examples) for Curvilinear Motion using Cartesian Coordinates

Lec05 - Particle Kinematics (Theory) for Curvilinear Motion using Natural (N/T) Coordinates

Lec06 - Particle Kinematics (Examples) for Curvilinear Motion using Natural (N/T) Coordinates

Lec07 - Particle Kinematics (Theory) for Curvilinear Motion using Polar Coordinates

Lec08 - Particle Kinematics (Examples) for Curvilinear Motion using Polar/Cylindrical Coordinates

Lec09 - Particle Kinematics (Theory & Examples) Relative Motion

Lec10 - Particle Kinetics (Theory & Examples) Force-Mass-Acceleration using Cartesian Coordinates

Lec11 - Particle Kinetics (Theory & Examples) Force-Mass-Acceleration using Natural Coordinates

Lec12 - Particle Kinetics (Theory & Examples) Force-Mass-Acceleration using Polar/Cyl. Coordinates

Lec13 - Particle Kinetics (Theory) Work & Kinetic Energy

Lec14 - Particle Kinetics (Theory) Work, Potential Energy, & Non-Conservative Forces

Lec15 - Particle Kinetics (Examples) Work-Energy

Lec16 - Particle Kinetics (Theory) Linear Impulse-Momentum and Collisions

Lec17 - Particle Kinetics (Examples) Linear Momentum Conservation in Collisions

Lec18 - Particle Kinetics (Theory & Examples) Angular Momentum Conservation

Lec19 - Rigid Body Planar Kinematics (Theory) Relative Velocity

Lec20 - Rigid Body Planar Kinematics (Examples) Relative Velocity

Lec21- Rigid Body Planar Kinematics (Theory & Examples) Relative Acceleration

Lec22 - Rigid Body Planar Kinematics (Theory) Sliding Contacts

Lec23 - Rigid Body Planar Kinematics (Examples) Sliding Contacts

Lec24 - Rigid Body Planar Kinematics (Theory) Moving Reference Frames

Lec25 - Rigid Body Planar Kinetics (Theory & Examples) Mass Moment of Inertia

Lec26 - Rigid Body Planar Kinetics (Theory) Force-Mass-Acceleration

Lec27 - Rigid Body Planar Kinetics (Examples) Force-Mass-Acceleration

Lec28 - Rigid Body Planar Kinetics (Theory) Work-Energy

Lec29 - Rigid Body Planar Kinetics (Examples) Work-Energy

Lec30 - Rigid Body Planar Kinetics (More Examples) Work-Energy

Lec31- Rigid Body Planar Kinetics (Theory) Angular Impulse & Momentum

Lec32 - Rigid Body Planar Kinetics (Theory & Example) Impacts & Momentum Conservation

Lec33 - Rigid Body Planar Kinetics (Example) Impacts & Momentum Conservation

Lec34 - Rigid Body 3D Kinematics (Theory)

Lec35 - Rigid Body 3D Kinematics (Examples)

Lec36 - Rigid Body 3D Kinetics (Theory) Geometrical Properties

Lec37 - Rigid Body 3D Kinetics (Theory) Euler's Equations of Motion

Lec38 - Rigid Body 3D Kinetics (Examples) Euler's Equations of Motion

Lec39 - Review of Course Content Areas

Description:

Dive into the comprehensive study of Engineering Mechanics - Dynamics through a series of 39 lectures covering particle kinematics and kinetics, rigid body planar kinematics and kinetics, and 3D rigid body motion. Begin with an introduction to dynamics and review prerequisite content before exploring rectilinear and curvilinear motion using various coordinate systems. Progress to particle kinetics, examining force-mass-acceleration, work-energy principles, and momentum conservation. Advance to rigid body planar kinematics and kinetics, studying relative velocity and acceleration, sliding contacts, and moving reference frames. Conclude with an exploration of 3D rigid body kinematics and kinetics, including Euler's equations of motion, before reviewing all course content areas.

Engineering Mechanics - Dynamics

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