Use this interactive to learn the physics behind oscillation.

Students understand the physics of a free falling object through these illustrated example problems.

This is the glossary of terms and definitions used in Chapter 10: Rotational Motion and Angular Momentum from the AP Physics online text.

An interactive simulation that teaches about motion, acceleration, and velocity by allowing students to build their own solar system and watch the effects of gravitational pull and how that changes with initial position, velocity, and...

[Free Registration/Login may be required to access all resource tools.] An online chapter focused on motion and the shapes it takes. Topics range from speed and velocity to acceleration and free fall. Find detailed visuals, learning...

[Free Registration/Login may be required to access all resource tools.] In the following lesson students will be asked to analyze and describe accelerated motion in two dimensions using equations including circular examples.

[Free Registration/Login Required] Learn about orbits and how an object can stay in orbit under the influence of gravity. By adjusting launch velocities users will understand how to successfully put a virtual satellite into orbit without...

Expanding on the topic of objects in motion covering Newton's laws of motion, acceleration and velocity, which are taught starting in third grade, middle schoolers are introduced to new concepts of speed, density, level of service (LOS)...

[Free Registration/Login Required] Watch this animation as an archer shoots at a target on an angle, and its horizontal and vertical paths and its velocity are explained. An interactive follows where you can manipulate the archer's...

[Free Registration/Login Required] Learn about the trajectories in two dimensions through simulation and examples. Some of the concepts identified are motion and velocity.

[Free Registration/Login may be required to access all resource tools.] In this online tutorial students will learn to describe and calculate how the magnitude of the gravitational force between two objects depends on their masses and...

Students learn about slope, determining slope, distance vs. time graphs through a motion-filled activity. Working in teams with calculators and CBL motion detectors, students attempt to match the provided graphs and equations with the...

Under the "The Science Behind Harry Potter" theme, a succession of diverse complex scientific topics are presented to students through direct immersive interaction. Student interest is piqued by the incorporation of popular culture into...

Students are introduced to the concept of projectile motion, of which they are often familiar from life experiences,such as playing sports such as basketball or baseball, even though they may not understand the physics involved. Students...

Displacement, velocity, and acceleration are determined in real world problems using the indefintie integral. Several examples alllow you to see the process at work.

Remember, anti derivative of acceleration with respect to time is velocity and anti derivative of velocity with respect to time is distance where acceleration, velocity, distance are all functions of t, the time. This concept is very...

Intended for the beginning lessons in derivative and function graphs, this activity uses motion detectors and battery operated toy cars to generate constant velocity graphs on a TI-83/84. Then students take a free-wheeling car and roll...

Using parametric equations, velocity and acceleration values are determined for objects in curvilinear motion.

Read this passage and study the graphic to complete a five-question quiz that will test your knowledge on acceleration to reduce concussions in professional athletes.

Read this passage and study the graphics to complete a five-question quiz that will test your knowledge on acceleration.

Based off of the hit television show NUMB3RS, this lesson has students try to emulate a time vs. distance graph on their graphing calculator using the CBR2. Next, the CBR2 is "swept" across an area in which three students are standing to...

Using the free-fall constants and gravity acceleration equations, we can determine many things about the position, velocity, and speed of a projectile. Here are a few examples and explanations. This is a great review for the AP Calculus...

A short interactive activity which allows you to visualize a constant acceleration. You can modify the initial position, the initial velocity and the acceleration.

This app demonstrates how elongation, velocity, tangential acceleration, force, and energy are affected when a pendulum oscillates.