More thanactualweightIf a lift isslowing down inthe downwarddirection, yourapparentweight is ...takingrepeatedmeasurementsrandomuncertaintiescan often bereduced by_______Velocity-Time graphfor abouncingballBoth sides ofthis equationare equal toimpulse.noexternalforcesMomentumis onlyconserved ifthere are______.Apply Newton'ssecond law tothe WHOLEsystem and thenagain to theindividual partsA descriptionof how to solveforce problemswith multipleobjects1Theequationfor workThis is a speed-time graph foran object falling(with airresistance)220sin(15)VelocityThegradient ofa distance-time graphVectorMomentum isa ______ asit hasmagnitudeand direction.gTheacceleration ofa freely fallingobject withoutair resistance.The 1-2PunchFree BodyDiagram.Newton'ssecond law.Displacement-time graph witha constant,negativeaccelerationEquationfor randomuncertaintyImpulse(change inmomentum)The areaunder aForce-timegraphElasticKinetic energyis conservedin an__________collision.suvatequationsalsoknown asequationsof motion20cos(15)Thecomponent ofweightperpendicularto the slopechangeinvelocityThe areaunder anacceleration-time graph =displacementThe areaunder avelocity-timegraph =Thecomponentof weightparallel tothe slopeAlwaysEnergy isconserved_______FrictionA forcethatopposesmotionAdisplacement-time graph witha constant,positiveaccelerationScalarEnergy is a_______ asit only hasmagnitude.Less thanactualweightIf a lift isspeeding up inthe downwarddirection, yourapparentweight is...terminalvelocityWhen the forceson a skydiverare finallybalanced, theyhave reached_______.5Displacement-time graph fora bouncingballMore thanactualweightIf a lift isslowing down inthe downwarddirection, yourapparentweight is ...takingrepeatedmeasurementsrandomuncertaintiescan often bereduced by_______Velocity-Time graphfor abouncingballBoth sides ofthis equationare equal toimpulse.noexternalforcesMomentumis onlyconserved ifthere are______.Apply Newton'ssecond law tothe WHOLEsystem and thenagain to theindividual partsA descriptionof how to solveforce problemswith multipleobjects1Theequationfor workThis is a speed-time graph foran object falling(with airresistance)220sin(15)VelocityThegradient ofa distance-time graphVectorMomentum isa ______ asit hasmagnitudeand direction.gTheacceleration ofa freely fallingobject withoutair resistance.The 1-2PunchFree BodyDiagram.Newton'ssecond law.Displacement-time graph witha constant,negativeaccelerationEquationfor randomuncertaintyImpulse(change inmomentum)The areaunder aForce-timegraphElasticKinetic energyis conservedin an__________collision.suvatequationsalsoknown asequationsof motion20cos(15)Thecomponent ofweightperpendicularto the slopechangeinvelocityThe areaunder anacceleration-time graph =displacementThe areaunder avelocity-timegraph =Thecomponentof weightparallel tothe slopeAlwaysEnergy isconserved_______FrictionA forcethatopposesmotionAdisplacement-time graph witha constant,positiveaccelerationScalarEnergy is a_______ asit only hasmagnitude.Less thanactualweightIf a lift isspeeding up inthe downwarddirection, yourapparentweight is...terminalvelocityWhen the forceson a skydiverare finallybalanced, theyhave reached_______.5Displacement-time graph fora bouncingball

Higher Dynamics Bingo - 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. If a lift is slowing down in the downward direction, your apparent weight is ...
    More than actual weight
  2. random uncertainties can often be reduced by _______
    taking repeated measurements
  3. Velocity-Time graph for a bouncing ball
  4. Both sides of this equation are equal to impulse.
  5. Momentum is only conserved if there are ______.
    no external forces
  6. A description of how to solve force problems with multiple objects
    Apply Newton's second law to the WHOLE system and then again to the individual parts

  7. 1
  8. The equation for work
  9. This is a speed-time graph for an object falling (with air resistance)

  10. 2

  11. 20sin(15)
  12. The gradient of a distance-time graph
    Velocity
  13. Momentum is a ______ as it has magnitude and direction.
    Vector
  14. The acceleration of a freely falling object without air resistance.
    g
  15. Free Body Diagram. Newton's second law.
    The 1-2 Punch
  16. Displacement-time graph with a constant, negative acceleration
  17. Equation for random uncertainty
  18. The area under a Force-time graph
    Impulse (change in momentum)
  19. Kinetic energy is conserved in an __________ collision.
    Elastic
  20. also known as equations of motion
    suvat equations

  21. 20cos(15)
  22. The component of weight perpendicular to the slope
  23. The area under an acceleration-time graph =
    change in velocity
  24. The area under a velocity-time graph =
    displacement
  25. The component of weight parallel to the slope
  26. Energy is conserved _______
    Always
  27. A force that opposes motion
    Friction
  28. A displacement-time graph with a constant, positive acceleration
  29. Energy is a _______ as it only has magnitude.
    Scalar
  30. If a lift is speeding up in the downward direction, your apparent weight is...
    Less than actual weight
  31. When the forces on a skydiver are finally balanced, they have reached _______.
    terminal velocity

  32. 5
  33. Displacement-time graph for a bouncing ball