Give Now

A Moment of Science

Swinging Physics: Potential And Kinetic Energy Working Together

How is swinging on a swing related to physics? What are potential and kinetic energy?

Sit on a swing, let someone push you, and away you go.

But what happens if the person who pushed you walks away, and you want to swing faster and higher. If you’ve ever been in the second grade, you know the solution to that. Just start pumping your legs–stretching them forward then drawing them up underneath you–and you can make yourself swing higher. Have you ever wondered why this is?

Potential Into Kinetic

Swings work by converting potential energy into kinetic energy, then kinetic energy back into potential energy, over and over again.

The kinetic energy is the fast part of swinging; it’s the speed you have as you rush back and forth.

Potential energy is the high part of swinging.

The higher you go on the swing, the more potential energy you have.

Speed and Swing

Even though you’re not moving at the very top of each swing, you can think of your height as your potential for speed. A physicist would say that your kinetic energy–that is, your speed–is “stored” as potential energy at the top of each swing.

More height is more speed, just waiting to happen.

How Do You Increase The Energy?

You can increase the energy of your swing in two separate ways.

If someone pushes you, that increases your kinetic energy.

By pumping your legs, you can increase your potential energy. By raising your legs at the top of each swing, you can raise the overall center of mass of your body, effectively raising the height of your swing.

Pump after pump, the energy you burn in your legs increases your swing’s potential energy. That extra height will add up, giving you a wilder swing ride.

Stay Connected

What is RSS? RSS makes it possible to subscribe to a website's updates instead of visiting it by delivering new posts to your RSS reader automatically. Choose to receive some or all of the updates from A Moment of Science:

Support for Indiana Public Media Comes From

About A Moment of Science

Search A Moment of Science