Difference between revisions of "Cartesian Diver"
From UO Physics Demonstration Catalog
(Created page with "{{NewDemo|subject=Fluid Mechanics|topic=Fluid Statics|file1=Cartesian_Diver.gif}} A graduated cylinder is filled with water. Within the water is an inverted test tube with just enough air in it to keep it afloat. When the rubber diaphragm over the top of the cylinder is depressed, increasing the pressure within the cylinder, the test tube sinks and returns when the diaphragm is released. '''Location: ''' * Shelf T-2") |
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{{NewDemo|subject=Fluid Mechanics|topic=Fluid Statics|file1=Cartesian_Diver.gif}} | {{NewDemo|subject=Fluid Mechanics|topic=Fluid Statics|file1=Cartesian_Diver.gif|file2=Cartesian1.JPG}} | ||
A graduated cylinder is filled with water. Within the water is an inverted test tube with just enough air in it to keep it afloat. When the rubber diaphragm over the top of the cylinder is depressed, increasing the pressure within the cylinder, the test tube sinks and returns when the diaphragm is released. | A graduated cylinder is filled with water. Within the water is an inverted open test tube with just enough air in it to keep it afloat. When the rubber diaphragm over the top of the cylinder is depressed, increasing the pressure within the cylinder, the test tube sinks and returns when the diaphragm is released. | ||
'''Location: | '''Location: | ||
''' | ''' | ||
* Shelf T-2 | * Shelf T-2 | ||
Latest revision as of 11:43, 1 February 2023
Return to Fluid Statics
Description:
A graduated cylinder is filled with water. Within the water is an inverted open test tube with just enough air in it to keep it afloat. When the rubber diaphragm over the top of the cylinder is depressed, increasing the pressure within the cylinder, the test tube sinks and returns when the diaphragm is released.
Location:
- Shelf T-2
