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...

Textbooks come in all shapes, sizes, and media these days. An electronic textbook resource offers Physics materials for an entire course. The text offers an explanation of physics topics as well as examples of calculations and reading...

From a chapter on Rotational Motion and Angular Momentum in a Physics textbook. This section of the chapter discusses developing an equation for rotational work, how to determine the rotational kinetic energy along with a problem-solving...

From a chapter on work and energy in a Physics textbook. This section of the chapter covers the difference between renewable and nonrenewable energy resources, the growth in the world's energy consumption, and the link between energy use...

In this section of the textbook, find information about how heat and work transfer energy. Also understand how a heat transfer is related to temperature and what mechanical equivalent of heat relates to work and heat transfer. Book can...

Consider an ordinary dart projected from a toy dart gun and moving through the air. Students analyze work and energy of the motion of the dart with this animation.

This introduction to potential energy contains illustrated examples, example problems, and interactive exercises for application of learning.

The intricate relationship between work and mechanical energy is depicted in the animation for students to be able to visualize.

Students explore the energy transport phenomenon that transports energy along a medium without transporting matter.

The orbits of satellites are described and an energy analysis is performed. Kinetic, potential and total mechanical energy are explained and applied to the motion of satellites.

Through interactive practice problems and examples, students calculate the amount of work done by forces.

Through examples and interactive practice problems, motion will be approached from the perspective of work and energy.

Introduce students to the concept of kinetic energy through interactive practice exercises and illustrated examples.

Suppose that a car traveled up three different sloped roadways from the base of a mountain to the summit of the mountain. Which path would require the most energy? See this animation and explanation for help.

Students can analyze an animation of a Hot Wheels car and use the principles of work and energy to answer the given questions.

This animation depicts the motion of a young child sliding across the snow on a sled. Students can analyze the work and energy involved in this scenario.

Introduce students to the concept of mechanical energy through interactive practice exercises and illustrated examples.

Using a roller coaster as an example, the transformation of mechanical energy from the form of potential to the form of kinetic and vice versa is explained and illustrated in the animation.

Through illustrated examples and interactive examples, students learn about the two categories of forces are referred to as internal forces and external forces.

A handy resource that gives an overview of equations and definitions pertinent to an introductory, college-level physics course, with two of its three sections focusing on motion-related topics and principles.

In this interactive module, students learn the basic terminology and concepts of power as it has to do with work and energy.

In this interactive exercise, explore the quantitative relationship between work and mechanical energy in situations in which there are no external forces doing work.

The motion of a pendulum is a classic example of mechanical energy conservation. See the mechanics at work here in this animation.

Through illustrated examples and practice problems, students apply the relationship between work and mechanical energy change to a variety of motion scenarios in order to test our understanding.