Concord Consortium
Collisions and Kinetic Energy
Can your physical science classes describe what happens when two objects collide? Whether they are new to the study of kinetic energy or just brushing up on their skills, pupils can observe the outcome of a variety of collisions...
University of California
Work, Energy, Power, Momentum
Planning a physics unit on energy can take a lot of work, luckily this instructional presentation is here to help. Covering everything from work and energy to elastic collisions and the conservation of momentum, this comprehensive...
Rice University
College Physics for AP® Courses
Take a look at an organized physics course. The 34-section electronic textbook covers material in AP® Physics 1 and 2. Teachers use the text to supplement lectures and have the class work through the labs. Each section contains...
Texas Education Agency
Texas Gateway: 5.1 Further Applications of Newton's Laws: Friction
By the end of this section, you will be able to discuss the general characteristics of friction, describe the various types of friction, and calculate the magnitudes of static and kinetic frictional forces.
Sophia Learning
Sophia: Kinetic Friction & Normal Forces
This slide show presentation helps the learner understand how normal force affects the amount of friction.
Physics Aviary
Physics Aviary: Practice Problems: Newton's Law System Both Frictions Problem
Students must find out different things for a series of object's moving as a system with Friction. In this problem students will be given both a static friction coefficient and a kinetic friction coefficient.
TeachEngineering
Teach Engineering: Factors Affecting Friction
In this lesson plan, learners use previous knowledge about friction to formulate hypotheses concerning the effects of weight and contact area on the amount of friction between two surfaces. In the Associated Activities (Does Weight...
CK-12 Foundation
Ck 12: Physics Simulation: Sprinter
[Free Registration/Login Required] Learn about static friction, kinetic friction, and slipping in the context of human motion using this interactive simulation. A PDF worksheet and a video tutorial are also available. [3:38]
University of Colorado
University of Colorado: Ph Et Interactive Simulations: Energy Skate Park
Learn about conservation of energy with a skater dude. Build tracks, ramps, and jumps for the skater and view the kinetic energy, potential energy and friction as he moves.
Khan Academy
Khan Academy: A Ramp in an Administrative Office
This passage will test your knowledge on forces on inclined planes.
University of Colorado
University of Colorado: Ph Et Interactive Simulations: Energy Skate Park
Build tracks, ramps and jumps in a skate park to learn about energy.
Quizlet
Quizlet: 6th Grade Science: Energy Vocabulary: Test
This interactive assessment features 6 matching, 6 multiple-choice, and 5 true/false question over 17 terms related to energy and their definitions. These include the following: Kinetic, Sound, Potential, Elastic potential, Chemical,...
Quizlet
Quizlet: 6th Grade Science: Energy Vocabulary: Match
In this interactive game, students match 17 terms related to energy with their definitions. These include the following: Kinetic, Sound, Potential, Elastic potential, Chemical, Gravitational Potential, Electrical, Light, Energy, Energy...
Quizlet
Quizlet: 6th Grade Science: Energy Vocabulary: Flashcards
This set of interactive flashcards focuses on 17 terms related to energy and their definitions. These include the following types of energy: Kinetic, Sound, Potential, Elastic potential, Chemical, Gravitational Potential, Electrical,...
University of Colorado
University of Colorado: Ph Et Interactive Simulations: Masses and Springs
Use this interactive, animated lab to explore conservation of mechanical energy.
Annenberg Foundation
Annenberg Learner: Amusement Park Physics: Roller Coaster
This interesting and interactive exhibit demonstrates how Newton's Laws of Motion impact the design and safety of roller coasters.
Other
Center for Education Partnerships: The Marble Roll
In this Science-athon, students try to make their marble roll the farthest across a flat surface, using their knowledge of forces, motion, and energy to guide them through their apparatus design. Teachers must enroll online.