Difficulty of Project
Less than $5.00
Approximate Time Required to Complete the Project
About an hour to collect the data; one day to prepare the science fair display
To determine if air pressure affects the way a ball bounces
- Air pump with a pressure gauge
- Measuring tape
- Masking tape
Air has mass, weight, and volume, meaning that it takes up space. Air is made up of different gases, including nitrogen, carbon dioxide, water vapor, oxygen, and others. All of these gases are composed of particles or molecules, and they're all in constant motion.
As the molecules move about, they come in contact with surfaces of objects. The molecules push and press on those surfaces, exerting pressure on them. Air pressure allows your basketball to keep its round shape and remain hard and bouncy. If air escapes from the ball, the pressure inside the ball changes. Air pressure is measured using psi, or pounds per square inch. A basketball needs 8 psi to be properly inflated.
In this investigation, a basketball containing different psi is dropped to see how well it bounces.
Air pressure: the push that air has against all surfaces that it touches. The more air there is in a contained area, the greater the air pressure.
Force: the capacity to change or use energy
Energy: the capacity to work or use power
Gravity: the force that causes all things to fall toward the centre of the earth
Inflate: to put air in
A ball needs air inside of it to bounce. When a ball is dropped, the molecules squeeze together as it hits the ground and then spread apart as it bounces in the air.
- Why does a ball bounce?
- How high does a ball bounce?
- What affects how a ball bounces?
- How can you measure how high a ball bounces?
- Gather the necessary materials.
- Hang the measuring tape on a wall next to an open area where a ball can be bounced. Set a chair next to the wall beside the measuring tape.
- Enlist the help of volunteer to help you mark how high the ball bounces.
- Use the air gauge to check the air pressure of the basketball. Record the result.
- Stand on the chair beside the measuring tape. Let the ball drop. Have the volunteer put a piece of masking tape at the highest point of the ball’s bounce. Record the result.
- Let out some air from the ball using pressure gauge. Record the result.
- Repeat Steps 5 and 6 until the ball no longer bounces. Be sure to drop the ball from the same height each time.
"That's The Way The Ball Bounces" by P. Doherty from the The Exploratorium Museum, San Francisco, CA. Http://www.exploratorium.edu/sports/ball_bounces/index.html
“Air is Matter” at Http://www.teacherdomain.org/resource/phy03.sci.phys.descwrld.air
Branley, Franklyn M. Air is All Around You. HarperCollins Children’s Books: New York, 1962.