Animations for explaining the concepts of force, power, torque, and energy.
The techniques and equipment skateboarders use to seemingly bend the law of gravity. In the trickscience section, the site explains the physics behind the stunts, and several experiments to try at home. The equipment section offers an in-depth look at skateboard design.
Resources for those interested in aeronautics including an online textbook, sign language dictionary, explanations of the principles of aeronautics, lesson plans, interactive activities, and curriculum bridges to other subjects.
Explanations with animations.
Various aspects of mechanics are explored allowing the user to change variables to learn the concepts
The material presented here is designed to be directly useful to a teacher or student in a more traditional high school or beginning university physics course on mechanics. There are profuse instructions, and some prewritten spreadsheets are available as well.
Tutorial on kinematics targeting undergraduate engineering students taking courses such as engineering mechanics. Common textbook kinematics problems are solved - always using the same method of solution - the SLIK method. SLIK stands for "Simple Loop Interpretations for Kinematics."
Physics can be studied at the playground using CBLs, graphing calculators, motion detectors, and accelerometers. Programs are written by Richard Taylor, the Hockaday School. Paper supported by Teachers Teaching with Technology, and printed in The Physics Teacher.
Explores how the laws of physics play a role in the design of amusement park rides. Activities invite visitors to design a roller coaster and determine the outcomes of bumper car collisions. Links to related sites are provided.
A lesson outline on the topic of fluids. Looks at topics such as viscosity, bouyancy, density, volume and how hydraulics and pneumatics plays an important role.
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