Archimedes’PrincipleThis principleexplains whyobjects floatwhen theydisplaceenough fluid.AreaThe formulafor pressureis forcedivided bythis.BuoyantForceThe upwardforce exertedby a fluid ona submergedobject.Shape andDisplacementThe reasonwhy steelships floatdespite theirweight.pistonThe part of ahydraulicsystem thatmoves dueto pressureHydraulicLiftA machinethat usesPascal'sPrinciple tolift cars.DensityThemeasure ofmass perunit volume.pistonThe part of ahydraulicsystem thatmoves dueto pressureBallastTanksUsed insubmarinesto controlfloating andsinking.PressureThe forceapplied toa surfacearea.lowdensityThe reasonwhy awoodenblock floats.DisplacementThe amount offluid pushedaside by asubmergedobject.shipsA real-lifeexample ofArchimedes’Principle intransportation.highdensityThe reasonwhy a rocksinks inwater.Pascal(Pa)The SIunit ofpressure.BuoyancyThe principleused in hotair balloonsto rise.Pascal’sPrincipleThis principleexplains whypressure istransmittedequally in afluid.volumeThe formulafor density ismass dividedby this.AreaThe formulafor pressureis forcedivided bythis.DensityThemeasure ofmass perunit volume.HydraulicBrakeA device thatuses fluidpressure tostopvehicles.HydraulicSystemA system thatuses fluidpressure tomultiplyforce.HydraulicFluidThe fluidused inhydraulicsystems.DisplacementThe amount offluid pushedaside by asubmergedobject.Archimedes’PrincipleThis principleexplains whyobjects floatwhen theydisplaceenough fluid.AreaThe formulafor pressureis forcedivided bythis.BuoyantForceThe upwardforce exertedby a fluid ona submergedobject.Shape andDisplacementThe reasonwhy steelships floatdespite theirweight.pistonThe part of ahydraulicsystem thatmoves dueto pressureHydraulicLiftA machinethat usesPascal'sPrinciple tolift cars.DensityThemeasure ofmass perunit volume.pistonThe part of ahydraulicsystem thatmoves dueto pressureBallastTanksUsed insubmarinesto controlfloating andsinking.PressureThe forceapplied toa surfacearea.lowdensityThe reasonwhy awoodenblock floats.DisplacementThe amount offluid pushedaside by asubmergedobject.shipsA real-lifeexample ofArchimedes’Principle intransportation.highdensityThe reasonwhy a rocksinks inwater.Pascal(Pa)The SIunit ofpressure.BuoyancyThe principleused in hotair balloonsto rise.Pascal’sPrincipleThis principleexplains whypressure istransmittedequally in afluid.volumeThe formulafor density ismass dividedby this.AreaThe formulafor pressureis forcedivided bythis.DensityThemeasure ofmass perunit volume.HydraulicBrakeA device thatuses fluidpressure tostopvehicles.HydraulicSystemA system thatuses fluidpressure tomultiplyforce.HydraulicFluidThe fluidused inhydraulicsystems.DisplacementThe amount offluid pushedaside by asubmergedobject.

Review Bingo: Physics of Fluids - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. This principle explains why objects float when they displace enough fluid.
    Archimedes’ Principle
  2. The formula for pressure is force divided by this.
    Area
  3. The upward force exerted by a fluid on a submerged object.
    Buoyant Force
  4. The reason why steel ships float despite their weight.
    Shape and Displacement
  5. The part of a hydraulic system that moves due to pressure
    piston
  6. A machine that uses Pascal's Principle to lift cars.
    Hydraulic Lift
  7. The measure of mass per unit volume.
    Density
  8. The part of a hydraulic system that moves due to pressure
    piston
  9. Used in submarines to control floating and sinking.
    Ballast Tanks
  10. The force applied to a surface area.
    Pressure
  11. The reason why a wooden block floats.
    low density
  12. The amount of fluid pushed aside by a submerged object.
    Displacement
  13. A real-life example of Archimedes’ Principle in transportation.
    ships
  14. The reason why a rock sinks in water.
    high density
  15. The SI unit of pressure.
    Pascal (Pa)
  16. The principle used in hot air balloons to rise.
    Buoyancy
  17. This principle explains why pressure is transmitted equally in a fluid.
    Pascal’s Principle
  18. The formula for density is mass divided by this.
    volume
  19. The formula for pressure is force divided by this.
    Area
  20. The measure of mass per unit volume.
    Density
  21. A device that uses fluid pressure to stop vehicles.
    Hydraulic Brake
  22. A system that uses fluid pressure to multiply force.
    Hydraulic System
  23. The fluid used in hydraulic systems.
    Hydraulic Fluid
  24. The amount of fluid pushed aside by a submerged object.
    Displacement