1 / 15

How does the air pressure of a basketball affect the height of its bounce?

How does the air pressure of a basketball affect the height of its bounce?. Jose R. Sanchez Jonathan Ryberg Chris Weisman. Introduction. Purpose: Ball bounce and air pressure is important for basketball because: 1. Not enough: Dribbling is practically impossible.

gaston
Télécharger la présentation

How does the air pressure of a basketball affect the height of its bounce?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. How does the air pressure of a basketball affect the height of its bounce? Jose R. Sanchez Jonathan Ryberg Chris Weisman

  2. Introduction • Purpose: Ball bounce and air pressure is important for basketball because: • 1. Not enough: Dribbling is practically impossible. • Too much: The ball will bounce too much.

  3. Introduction • How does the air pressure of a basketball affect the height of its bounce?

  4. Hypothesis • If we decrease the amount of air pressure inside the basketball, then it will decrease the bounce height because we are increasing the amount of surface area hitting the ground and thus spreading the energy over a larger area.

  5. Materials List • Basketball • Air Pump with needle and gauge • 2 meter sticks • Video Camera • iMovie application

  6. Experimental Procedure • Tape two meter sticks against a wall • Use a marker to show the lengths at 50cm, 100cm, and 150 cm. • Use the air pump and gauge to determine the basketball is pumped to 8 psi. • Choose a constant (242.6cm) Drop Height

  7. Experimental Procedure (cont.) • Drop the ball from the drop height • Use the video camera to record 3 trials of bounce height • Repeat steps for 4, 6, 10 and 12 PSI using the gauge. • Upload the video to iMovie • Use iMovie to slow down the video to determine the bounce height

  8. Our Set-up

  9. Experimental Parameters • Independent Variable: Air Pressure (PSI) • Dependent Variable: Rebound Height • Constants: Release Point, Floor.

  10. Results

  11. Results

  12. Conclusion • The data we collected does support our original hypothesis. • Not only does it support our hypothesis, but the data also provides some additional information. According to our data, as the air pressure in the ball increases beyond 8 psi, the amount of rebound ratio is not affected as much. • However, as we decrease the air pressure so that it is less than 8 psi, the bounce height is affected is much more.

  13. Conclusion:Science Content • The amount of air molecules increases as the amount of air pressure increases. Therefore, the air molecules will have less room to move when the ball hits the ground. • According to Newtown’s 3rd Law of Motion, as the ball hits the ground there is an equal and opposite force pushing the ball upward.

  14. Sources of Error • Release Mechanism - Human Error • PSI not exactly at predetermined level

  15. Further Questions to Investigate • How does temperature affect the rebound ratio of a basketball?(Internal energy of the air molecules) • How does the surface affect the rebound height? • Which material of the basketball is the best?

More Related