PIRA 2B20.00 STATIC PRESSURE

DCS #DEMONSTRATIONREFERENCEABSTRACT
2B20.00Static Presssure
2B20.10pressure independent of directionPIRA 200Insert a rotatable thistle tube with a membrane into a beaker of water.
2B20.10pressure independent of direction2B20.10A thistle tube covered with a diaphragm and connected to a manometer is lowered into water and oriented in different directions.
2B20.10pressure independent of directionFa-1A rubber membrane covers a thistle tube connected to a manometer. The assembly is inserted into a beaker of water and oriented in various directions.
2B20.10pressure independent of directionDisc 12-04Membrane on a tube connected to a manometer.
2B20.11pressure independent of directionM-273Three thistle tubes filled with colored alcohol and capped with rubber membranes are joined with the thistle ends bent to be oriented in various directions. Immerse in water to show equal pressure. Or, one tube may be turned to show the same thing.
2B20.15pressure dependent on depthPIRA 1000
2B20.15pressure dependent on depth fallacyAJP 32(1),xivThe manometer used in the demonstration is calibrated on the basis of the law under investigation.
2B20.15pressure dependent on depthM-20b.1Lower a small funnel covered with a rubber membrane attached to a manometer into a water filled vessel.
2B20.15Pressure vs. depthDisc 12-02A pressure sensor is connected to a LED bar graph.
2B20.16pressure vs. depth in water and alcoholPIRA 1000
2B20.16pressure vs. depth in water and alcoDisc 12-03The electronic pressure sensor and LED bar graph display are used first in water, then in alcohol.
2B20.17electronic depth dependenceAJP 56(7),620A circuit based on the Motorola MPX100AP pressure sensor displays a pressure depth curve on an XY recorder. An interesting feature is the use of two liquids showing a change of slope at the interface.
2B20.20dropping platePIRA 500
2B20.20dropping plate2B20.20
2B20.20dropping plateFc-1Pressure holds a glass plate on the bottom of a glass tube inserted into a beaker of water until the pressure is equalized by another fluid poured into the tube.
2B20.20dropping plate16-4.2A thin glass plate stays at the bottom of a glass tube immersed in water and water is poured into the tube until the plate drops off.
2B20.20dropping plateM-276Water pressure holds a plate against the bottom of a glass cylinder in a beaker of water. Pour water into the cylinder until the plate drops off. A variation uses a lead plate.
2B20.25Pascal's paradoxPIRA 1000
2B20.25Pascal's paradoxM-277Two identical truncated cones are in equilibrium on a platform balance, one small end down, the other large end down. Replacing the bottoms with rubber diaphragms and supporting only the extended diaphragms on the scale does not give equilibrium.
2B20.26lateral hydrostatic pressure16-4.10An inverted funnel with a cork on the stem floats in a beaker of water. When pushed down into a layer of mercury, it stays; but if the stem is immersed, it floats back up.
2B20.27hydrostatic paradox - vector analysiAJP 59(1),89Use the hydrostatic paradox to introduce vector analysis instead of some electromagnetism example.
2B20.30weigh a water columnPIRA 1000
2B20.30weigh a water column2B20.30Same as AJP 28(6),557.
2B20.30weigh water in a tubeAJP 28(6),557Suspend a tube from a springscale in a beaker of water and suck water up into the tube. Why does the scale reading increase?
2B20.30hydrostatic paradox16-4.9Suspend a tube, open at the bottom, from a spring scale in a beaker of water and partially evacuate the air from the tube.
2B20.32chicken barometerPIRA 1000
2B20.32chicken barometer2B20.32
2B20.32chicken barometer2B20.32
2B20.34hydrostatic paradox - truncated conePIRA 1000
2B20.34hydrostatic paradoxDisc 12-08A glass plate is held against the large end of a truncated cone when it is placed under water. The plate drops away when placed against the small end.
2B20.35weigh a barometerFd-3A barometer tube is weighed empty and filled with mercury, then inverted in a vat of mercury and weigh again.
2B20.35weigh a barometer16-4.8A spring scale, barometer tube, and mercury in a glass tube that can be evacuated.
2B20.40Pascal's vasesPIRA 200Six tubes of various shapes are connected to a common water reservoir.
2B20.40Pascal's vases2B20.40A set of tubes of different geometries rising from a common reservoir of water.
2B20.40Pascal's vasesFa-3A common reservoir connecting several weirdly shaped tubes.
2B20.40Pascal's vasesM-275Tubes of various shapes rise from a common horizontal tube. When filled with water, the level is the same in each tube.
2B20.40Pascal's vasesM-22f.1Six tubes of various shapes are connected to a common water reservoir.
2B20.40same level tubesDisc 12-01A commercial device.
2B20.42Pascal's vasesFa-2A commercial device with a pressure gauge and interchangeable vessel shapes.
2B20.42Pascal's vasesM-22e.2Vessels of various shapes are interchangeable on a base equipped with a pressure gauge.
2B20.43simplified hydrostatic paradoxAJP 53(11),1106Replace the sloped side vessels with stepped sides that include only horizontal and vertical components.
2B20.45water levelFa-4Two open tubes are connected by a long water filled hose.
2B20.50Pascal's fountainPIRA 1000
2B20.50Pascal's fountainFb-2A piston applies pressure to a round glass flask with small holes drilled at various points.
2B20.50Pascal's fountainM-271Water squirts out equally in all directions when forced out of a sphere by a tube fitted with a piston.
2B20.51Pascal's fountainFb-1A piston applies pressure to a flask with vertical jets originating at various points on the flask.
2B20.52Pascal's diaphragmsM-272A closed container has several protruding tubes capped with rubber diaphragms. Push on one and the others go out.
2B20.53squeeze the flask16-2.3Squeeze a flask capped with a stopper and small bore tube.
2B20.60hydraulic pressPIRA 500
2B20.60hydraulic press2B20.60A hydraulic press is used to break a piece of wood.
2B20.60hydraulic press, etc.M-282Use a large hydraulic press to break a 2x4. Glass models show the action of valves of suction and force pumps.
2B20.60hydraulic pressM-20eA hydraulic press with a pressure gauge breaks a board or compresses a large spring.
2B20.60hydraulic pressDisc 12-07Break a piece of wood in a hydraulic press. The press has a pressure gauge.
2B20.61two syringesPIRA 1000
2B20.61two syringesFb-3Two syringes of different size are hooked together and passed around the class for students to feel the pressure difference.
2B20.62hydraulic can crusherPIRA 1000
2B20.65garbage bag blowupPIRA 1000
2B20.65garbage bag blowup2B20.65
2B20.65air pressure liftDisc 11-17Lift a person supported by two hot water bottles by blowing them with the mouth.
2B20.66weight on a beach ballPIRA 1000
2B20.66weight on a beach ball2B20.66Place a 45 lb weight on a circular wood disc on a beach ball and blow up the beach ball per os.
2B20.66weight on the beach ball16-4.6Lift a 25 lb weight with your lungs by blowing it up on a beach ball.
2B20.66incompressibility of liqiudsM-268Pound in a nail with a bottle completely filled with boiled water.
2B20.67hydraulic balanceM-274A 2m vertical glass tube is connected to a hot water bottle. Have students sit on the bottle.
2B20.70compressibility of waterPIRA 1000
2B20.70compressibility of waterFn-1A piston in a heavy walled glass cylinder is screwed in causing mercury to move in a capillary in a second enclosed container.
2B20.70compressibility of water16-3.1A heavy walled glass cylinder filled with water is pressurized mechanically and mercury in the capillary tube of a internal water bottle indicates the compression.
2B20.70compressibility of waterM-270An apparatus to show compressibility of water.
2B20.71water/air compressionPIRA 1000
2B20.71water/air compressionDisc 12-05A syringe filled with air is compressed when a large weight is placed on it, but a water filled syringe does not compress.
2B20.72Weinold piezometer16-3.3Diagram. Complicated and delicate.
2B20.75near-incompressibility of water16-3.2Shoot a .22 at a water filled half pint paint can and the cover flies off. ALSO - Hammer a nail with the side of a glass bottle filled with water.
2B20.76incompressibility of liquidsM-269With a hammer, strike the stopper of a large bottle completely filled with water and shatter the bottle.
2B20.80hovercraftPIRA 500
2B20.80hovercraft2B20.80

ReferenceDescription
M-1Sutton
Ma-1Freier & Anderson
M-1dHilton
8-2.8Meiners
1A12.01University of Minnesota Handbook
AJP 52(1),85American Journal of Physics
TPT 15(5),300The Physics Teacher
Disc 01-01The Video Encyclopedia of Physics Demonstrations

Return to:
[FLUID MECHANICS][MAIN BIBLIOGRAPHY]