Difference between revisions of "Bernoulli's Ping Pong Ball"
From UO Physics Demonstration Catalog
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{{NewDemo|subject=Fluid Mechanics|topic=Fluid Dynamics|file1=Bernouli's Ping Pong Ball.gif}} | {{NewDemo|subject=Fluid Mechanics|topic=Fluid Dynamics|file1=Bernouli's Ping Pong Ball.gif|file2=Bernoulli's_Ping_Pong_Ball2.JPG|file3=Bernoulli's_Ping_Pong_Ball4.JPG}} | ||
When air is blown through the funnel, the force on the ping-pong ball is into the funnel. The ball can not be blown out | When air is blown through the funnel, the net force on the ping-pong ball is into the funnel since the moving air around the ping pong ball is less than air pressure . The ball can not be blown out and it will also remain in an inverted funnel so long as the air flow continues. The ping-pong ball will also float on a steady stream of air. With practice the ball can be held aloft with the air blowing at it from an angle. | ||
'''Location: | '''Location: | ||
''' | ''' | ||
* Ping-Pong Ball: Drawer 8 | * Ping-Pong Ball: Drawer 8 | ||
* Funnel: Drawer 141 | * Funnel: Drawer 141 or Gray Shelf by Black Cabinet | ||
* Air Supply: Shelf B-4 | * Air Supply: Shelf B-4 |
Latest revision as of 12:48, 29 March 2024
Return to Fluid Dynamics
Description:
When air is blown through the funnel, the net force on the ping-pong ball is into the funnel since the moving air around the ping pong ball is less than air pressure . The ball can not be blown out and it will also remain in an inverted funnel so long as the air flow continues. The ping-pong ball will also float on a steady stream of air. With practice the ball can be held aloft with the air blowing at it from an angle.
Location:
- Ping-Pong Ball: Drawer 8
- Funnel: Drawer 141 or Gray Shelf by Black Cabinet
- Air Supply: Shelf B-4