College of Liberal Arts & Sciences
Mechanics
Measurement
Basic Units
Error and Accuracy
Coordinate Systems
Vectors
Math Topics
Scaling
Motion in One Dimension
Velocity
Uniform Acceleration
Measuring g
Motion in Two Dimensions
Displacement in Two Dimensions
Velocity, Position, and Acceleration
Motion of the Center of Mass
Central Forces
Deformation by Central Forces
Centrifugal Escape
Projectile Motion
Relative Motion
Moving Reference Frames
Rotating Reference Frames
Coriolis Effect
Newton's First Law
Measuring Inertia
Inertia of Rest
Inertia of Motion
Newton's Second Law
Force, Mass, and Acceleration
Accelerated Reference Frames
Complex Systems
Newton's Third Law
Action and Reaction
Recoil
Large Scale Outdoor Measurements
Statics of Rigid Bodies
Finding Center of Gravity
Exceeding Center of Gravity
Stable, Unstable, and Neutral Equilibrium
Resolution of Forces
Static Torque
Applications of Newton's Laws
Dynamic Torque
Friction
Pressure
Gravity
Universal Gravitational Constant
Orbits
Work and Energy
Work
Simple Machines
Non-Conservative Forces
Conservation of Energy
Mechanical Power
Linear Momentum and Collisions
Impulse and Thrust
Conservation of Linear Momentum
Mass and Momentum Transfer
Rockets
Collisions in One Dimension
Collisions in Two Dimensions
Rotational Dynamics
Moment of Inertia
Rotational Energy
Transfer of Angular Momentum
Conservation of Angular Momentum
Gyros
Rotational Stability
Properties of Matter
Hooke's Law
Tensile and Compressive Stress
Shear Stress
Coefficient of Restitution
Crystal Structure
Disclaimer: These demonstrations are provided only for illustrative use by persons affiliated with The University of Iowa and only under the direction of a trained instructor or physicist. The University of Iowa is not responsible for demonstrations performed by those using their own equipment or who choose to use this reference material for their own purpose. The demonstrations included here are within the public domain and can be found in materials contained in libraries, bookstores, and through electronic sources. Performing all or any portion of any of these demonstrations, with or without revisions not depicted here entails inherent risks. These risks include, without limitation, bodily injury (and possibly death), including risks to health that may be temporary or permanent and that may exacerbate a pre-existing medical condition; and property loss or damage. Anyone performing any part of these demonstrations, even with revisions, knowingly and voluntarily assumes all risks associated with them.