speedThe totaldistancetravelled in agiven unit oftimeShows anobjectmovingbackwardsShowsobjectacceleratingNewton'sFirst Law(Law ofInertia)Newton's Lawdescribing thetendency of yourbody to continuemoving when thebreaks of the carare slammedreactionforceEarthpushing upon you is anexample ofthisNewton(N)The SIunit offorceTheformulafor speedd/tAccelerationA change inon object'sspeed ordirectionVelocityisconstantHow anobjectmoves whenaccelerationis 0TitlePart of agraph thatdescribeswhat thegraph is aboutProperty ofmatter thatresistschange inmotionInertiaoriginThe referencepoint fromwhichdisplacementis measuredScatterplota graph usedto find acorrelationbetween twovariablesPiegrapha graph thatusespercentagesto displaydata in slices.How faran objectmoves intotalDistancebalancedforcesWhenforces on abody addup to 0Nm/s^2Unit ofaccelerationThe distanceand directionan objectmoves from astarting positionDisplacementmassHow anobjectsinertiaquantifiedy-axisaxis onwhich thedependentvariable isdisplayednetforceThe sumtotal of allforces actingon a bodyBargrapha graph usedto comparegroups, orcounted,data.Newton's3rd lawFor everyaction thereis an equaland oppositereactionx-axisaxis onwhich theindependentvariable isdisplayedactionforceYou pushingdown on theEarth is anexamplea push or pullthat causes anobject to move,stop, or changedirectionForceSlopeof thelineHow todetermine thespeed oracceleration ofan object froma line graphLinegrapha graph thatshows changesoccurring inrelatedvariablesVelocitySpeedwith adirectionunbalancedforcesNetforce>0f=m*aNewton's2nd lawequationExampleof "action- reaction"How arocketworks is anexample(vf-vi)/tFormula foraccelerationvectorthis hasbothdirection &magnitudespeedThe totaldistancetravelled in agiven unit oftimeShows anobjectmovingbackwardsShowsobjectacceleratingNewton'sFirst Law(Law ofInertia)Newton's Lawdescribing thetendency of yourbody to continuemoving when thebreaks of the carare slammedreactionforceEarthpushing upon you is anexample ofthisNewton(N)The SIunit offorceTheformulafor speedd/tAccelerationA change inon object'sspeed ordirectionVelocityisconstantHow anobjectmoves whenaccelerationis 0TitlePart of agraph thatdescribeswhat thegraph is aboutProperty ofmatter thatresistschange inmotionInertiaoriginThe referencepoint fromwhichdisplacementis measuredScatterplota graph usedto find acorrelationbetween twovariablesPiegrapha graph thatusespercentagesto displaydata in slices.How faran objectmoves intotalDistancebalancedforcesWhenforces on abody addup to 0Nm/s^2Unit ofaccelerationThe distanceand directionan objectmoves from astarting positionDisplacementmassHow anobjectsinertiaquantifiedy-axisaxis onwhich thedependentvariable isdisplayednetforceThe sumtotal of allforces actingon a bodyBargrapha graph usedto comparegroups, orcounted,data.Newton's3rd lawFor everyaction thereis an equaland oppositereactionx-axisaxis onwhich theindependentvariable isdisplayedactionforceYou pushingdown on theEarth is anexamplea push or pullthat causes anobject to move,stop, or changedirectionForceSlopeof thelineHow todetermine thespeed oracceleration ofan object froma line graphLinegrapha graph thatshows changesoccurring inrelatedvariablesVelocitySpeedwith adirectionunbalancedforcesNetforce>0f=m*aNewton's2nd lawequationExampleof "action- reaction"How arocketworks is anexample(vf-vi)/tFormula foraccelerationvectorthis hasbothdirection &magnitude

Motion & Newton's Laws - 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. The total distance travelled in a given unit of time
    speed

  2. Shows an object moving backwards

  3. Shows object accelerating
  4. Newton's Law describing the tendency of your body to continue moving when the breaks of the car are slammed
    Newton's First Law (Law of Inertia)
  5. Earth pushing up on you is an example of this
    reaction force
  6. The SI unit of force
    Newton (N)
  7. d/t
    The formula for speed
  8. A change in on object's speed or direction
    Acceleration
  9. How an object moves when acceleration is 0
    Velocity is constant
  10. Part of a graph that describes what the graph is about
    Title
  11. Inertia
    Property of matter that resists change in motion
  12. The reference point from which displacement is measured
    origin
  13. a graph used to find a correlation between two variables
    Scatter plot
  14. a graph that uses percentages to display data in slices.
    Pie graph
  15. Distance
    How far an object moves in total
  16. When forces on a body add up to 0N
    balanced forces
  17. Unit of acceleration
    m/s^2
  18. Displacement
    The distance and direction an object moves from a starting position
  19. How an objects inertia quantified
    mass
  20. axis on which the dependent variable is displayed
    y-axis
  21. The sum total of all forces acting on a body
    net force
  22. a graph used to compare groups, or counted, data.
    Bar graph
  23. For every action there is an equal and opposite reaction
    Newton's 3rd law
  24. axis on which the independent variable is displayed
    x-axis
  25. You pushing down on the Earth is an example
    action force
  26. Force
    a push or pull that causes an object to move, stop, or change direction
  27. How to determine the speed or acceleration of an object from a line graph
    Slope of the line
  28. a graph that shows changes occurring in related variables
    Line graph
  29. Speed with a direction
    Velocity
  30. Net force >0
    unbalanced forces
  31. Newton's 2nd law equation
    f=m*a
  32. How a rocket works is an example
    Example of "action - reaction"
  33. Formula for acceleration
    (vf-vi)/t
  34. this has both direction & magnitude
    vector