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Introduction

These videos provide some learning objects suitable for an introductory dynamics course in a typical engineering curriculum. The "lectures" are narrated powerpoint presentations. The "Example Problems" are worked out using a pen-based tablet. The numbers next to each item correspond to section numbers for the Dynamics text by Gray, Costanzo, and Plesha. Contact Jake Blanchard at blanchard@engr.wisc.edu if you have any questions.

Lectures

• 1-1 History

• 1-2 Fundamentals

• 2-1 Position, Velocity, Acceleration

• 2-2 Elementary Motions

• 2-3 Projectile Motion

• 2-4 Time Derivative of a Vector

• 2-5 Planar Motion

• 2-6 Polar Coordinates

• 2-7 Relative Motion

• 2-8 3-D Motion

• 3-1 Rectilinear Motion

• 3-2 Curvilinear Motion

• 3-3 Systems of Particles

• 4-1 Work-Energy

• 4-2 Conservative Forces and Potential Energy

• 4-3 Systems of Particles

• 4-4 Power and Efficiency

• 5-1 Momentum and Impulse

• 5-2 Impact

• 5-3 Angular Momentum

• 5-4 Orbital Mechanics

• 5-5 Mass Flows

• 6-1 Rigid Body Kinematics

• 6-2 Velocity Analysis

• 6-3 Acceleration Analysis

• 6-4 Rotating Reference Frames

• 7-1 to 7-4 Newton-Euler Eqns for Planar Rigid Body Motion

• 8-1 Work Energy Principle for Rigid Bodies

• 8-2 Momentum Methods for Rigid Bodies

Example Problems

• 2-2 Constant Acceleration - Video

• 2-2 Rectilinear Motion - Video

• 2-2 Rectilinar Motion (Function of Position) - Video

• 2-3 Projectile Motion 1 - Video

• 2-3 Projectile Motion 2 - Video

• 2-3 Projectile Motion 3 - Video

• 2-5 Acceleration as function of s - Video

• 2-5 Circular Motion - Video

• 2-5 Exponential - Video

• 2-6 Polar Coordinates - Video

• 2-6 Slotted Link - Video

• 2-6 Polar Offset - Video

• 2-7 Pulleys - Video

• 2-7 Relative Motion - Video

• 2-8 3D Cartesian - Video

• 2-8 3D Cylindrical Motion - Video

• 3-1 2D Rectilinear- Video

• 3-1 Static Friction - Video

• 3-2 Polar Spring - Video

• 3-2 Tension in Wrecking Ball - Video

• 3-2 Normal Force - Video

• 3-2 Cylindrical Coordinates - Video

• 3-3 Static Friction - Video

• 3-3 Kinetic Friction - Video

• 4-1 Bumper Deformation - Video

• 4-1 Roller Coaster - Video

• 4-1 Spring/Projectile - Video

• 4-2 Roller Coaster - Video

• 4-2 Spring/Gravity - Video

• 4-3 Blocks - Video

• 4-4 Friction/Pulleys - Video

• 5-1 Particle Impulse and Momentum - Video

• 5-1 System Impulse and Momentum - Video

• 5-2 1D Impact - Video

• 5-2 2D Impact - Video

• 5-3 Particle Angular Momentum - Video

• 5-4 Orbital Mechanics - Video

• 5-5 Mass Flows - Video

• 6-1 Planar Motion Video

• 6-1 Bevel Gears Video

• 6-2 Vector Analysis Video

• 6-2 Instantaneous Center Video

• 6-3 Acceleration Video

• 7-1 Pendulum Video

• 7-1 Spool Video

• 8-1 Rigid Body Kinetic Energy Video

• 8-1 Work of Friction Video

• 8-2 Rolling Tire Angular Momentum Video

• 8-2 Conservation of Angular Momentum Video

Contact Information

• Jake Blanchard
• blanchard@engr.wisc.edu

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File last updated: January 9, 2009

Feedback, questions or accessibility issues: blanchard@engr.wisc.edu

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