Floating Ping-Pong Balls and Flying Toilet Paper

Moving air and pressure makes a ping pong ball float in midair.

Amuse the neighbors for hours as you make objects float in midair. Believe it or not, the secret to this levitation mystery is right in front of your nose.

SICK Science® is a registered trademark of Steve Spangler, Inc. All Rights Reserved.

Experiment Materials

  • Hair dryer
  • Ping-pong balls
  • Empty toilet paper tube
  • Balloon
  • Leaf blower
  • Beach ball
  • Roll of toilet paper
  • Stick or piece of PVC pipe

Experiment Videos

Experiment

1

Set the hair dryer to cool, switch it on, and point it at the ceiling.

2

Carefully put the ping-pong ball in the stream of air. Hold the hair dryer very steady and watch as the ping-pong ball floats in the stream of air.

3

Carefully move the hair dryer from left to right and watch how the ball moves as well, staying in the stream of air.

4

Try floating other lightweight objects in the air stream at the same time. With the hair dryer on, place an inflated balloon over your levitating ping-pong ball. You might want to place a penny in the balloon before you blow it up to give it some added weight.

How Does It Work

The floating ping-pong ball is a wonderful example of Bernoulli’s Principle. Bernoulli, an 18th-century Swiss mathematician, discovered something quite unusual about moving air. He found that the faster air flows over the surface of something, the less the air pushes on that surface (and so the lower its pressure). The air from the hair dryer flows around the outside of the ball and, if you position the ball carefully, the air flows evenly around each side. Gravity pulls the ball downward while the pressure below the ball from the moving air forces it upward. This means that all the forces acting on the ball are balanced and the ball hovers in midair.

As you move the hair dryer you can make the ball follow the stream of air because Bernoulli’s principle says that the fast moving air around the sides of the ball is at a lower pressure than the surrounding stationary air. If the ball tries to leave the stream of air, the still, higher pressure air will push it back in. So, the ball will float in the flow no matter how you move. When you place the empty toilet paper tube into the air stream, the air is funneled into a smaller area, making air move even faster. The pressure in the tube becomes even lower than that of the air surrounding the ball, and the ball is pushed up into the tube.

Take It Further

  • Try to float two or more balls in the same air stream. How many can you float at once? How do they behave when there is more than one?
  • Need more power? Try using a leaf blower in place of the hair dryer. Now you can float larger objects like beach balls.
  • Want to make flying toilet paper? Just hold a roll of toilet paper in the stream of air and watch the paper take off! Be sure to hold the toilet paper roll on a long stick (piece of dowel) in order for it to spin fast and unroll the paper.
  • And for the finale . . . balance a ping-pong ball in the air stream. Then place your now empty toilet paper tube above it in the air. Watch it float above the ball. Then watch the ball get sucked up inside the toilet paper tube. TA DA!! Always conclude this demo with thanks to Bernoulli (see below if you don’t get it).

Real-World Application

Airplanes can fly because of Bernoulli’s Principle. Air rushing over the top of airplane wings exerts less pressure than air from under the wings. So the relatively greater air pressure beneath the wings supplies the upward force, or lift, that enables airplanes to fly.

Legal Notice

The reader hereby agrees to only use the powers of flying toilet paper for good, not evil, purposes. The reader also promises never to TP (Toilet Paper) a friend’s house using the Flying Toilet Paper Method described herein. However, if an accidental “TP-ing” occurs, please send the author pictures from your cell phone and a full account of what happened.

Related Products