ForceA pushor apullAirResistanceResistiveforce exertedby airmoleculesElasticPotentialEnergyEnergyassociated withan objectsposition on aspringInertiaThe tendencyof an objectto resist achange inmotionGravityForce that isexertedbetween anytwo objectswith massStaticFrictionType of frictionpresent beforean objectbegins to moveAccelerationThe rate atwhich anobjectsvelocity ischangingBalancedForcesWhen thesum of theforces actingon an objectis zeroVectorA quantitythat includesbothmagnitudeand directionFreeFallThis occurswhen gravityis the onlyforce actingon an objectTensionA forceexertedby a ropeor chainExplosionType of collisionin which the totalmomentum ofthe system iszeroNormalForceForce that isperpendicularto a surfaceKineticFrictionFrictionpresent asan objectslides acrossa surfaceImpulseA change inmomentum orthe product ofForce andTimePowerThe rateat whichwork isdoneElasticCollisionType ofcollision inwhich objectsbounce off ofone anotherDisplacementThechange inposition ofan objectNetForceThe vectorsum of theforces actingon an objectScalarA quantitythat includesmagnitudeonlyInelasticCollisionCollision inwhich twoobjects sticktogetherWorkA forceexerted overa distance ora change inenergyCentripetalForceNet Forcethat causesan object tomove in acircular pathDistanceThe totallength of thepath travelledbetween twopositionsGravitationalPotentialEnergyEnergyassociated withan objectsposition abovethe groundKineticEnergyEnergyassociatedwith anobjectsmotionVelocityThe rate atwhich anobjectsposition ischangingMomentumTheproduct ofmass andvelocityFrequencyNumber ofcycles oroscillationsper secondPeriodTime tocompleteone cylcle oroscillationNewton's2nd LawThe acceleration ofan object is directlyproportional to thenet force andinversely proportionalto the objects massNewton's3rd LawFor everyaction thereis an equaland oppositereactionNewton's1st LawAn object in motionremains in motionand an object at restremains at restunless acted on byan external forceForceA pushor apullAirResistanceResistiveforce exertedby airmoleculesElasticPotentialEnergyEnergyassociated withan objectsposition on aspringInertiaThe tendencyof an objectto resist achange inmotionGravityForce that isexertedbetween anytwo objectswith massStaticFrictionType of frictionpresent beforean objectbegins to moveAccelerationThe rate atwhich anobjectsvelocity ischangingBalancedForcesWhen thesum of theforces actingon an objectis zeroVectorA quantitythat includesbothmagnitudeand directionFreeFallThis occurswhen gravityis the onlyforce actingon an objectTensionA forceexertedby a ropeor chainExplosionType of collisionin which the totalmomentum ofthe system iszeroNormalForceForce that isperpendicularto a surfaceKineticFrictionFrictionpresent asan objectslides acrossa surfaceImpulseA change inmomentum orthe product ofForce andTimePowerThe rateat whichwork isdoneElasticCollisionType ofcollision inwhich objectsbounce off ofone anotherDisplacementThechange inposition ofan objectNetForceThe vectorsum of theforces actingon an objectScalarA quantitythat includesmagnitudeonlyInelasticCollisionCollision inwhich twoobjects sticktogetherWorkA forceexerted overa distance ora change inenergyCentripetalForceNet Forcethat causesan object tomove in acircular pathDistanceThe totallength of thepath travelledbetween twopositionsGravitationalPotentialEnergyEnergyassociated withan objectsposition abovethe groundKineticEnergyEnergyassociatedwith anobjectsmotionVelocityThe rate atwhich anobjectsposition ischangingMomentumTheproduct ofmass andvelocityFrequencyNumber ofcycles oroscillationsper secondPeriodTime tocompleteone cylcle oroscillationNewton's2nd LawThe acceleration ofan object is directlyproportional to thenet force andinversely proportionalto the objects massNewton's3rd LawFor everyaction thereis an equaland oppositereactionNewton's1st LawAn object in motionremains in motionand an object at restremains at restunless acted on byan external force

Honors Physics Vocabulary - 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. A push or a pull
    Force
  2. Resistive force exerted by air molecules
    Air Resistance
  3. Energy associated with an objects position on a spring
    Elastic Potential Energy
  4. The tendency of an object to resist a change in motion
    Inertia
  5. Force that is exerted between any two objects with mass
    Gravity
  6. Type of friction present before an object begins to move
    Static Friction
  7. The rate at which an objects velocity is changing
    Acceleration
  8. When the sum of the forces acting on an object is zero
    Balanced Forces
  9. A quantity that includes both magnitude and direction
    Vector
  10. This occurs when gravity is the only force acting on an object
    Free Fall
  11. A force exerted by a rope or chain
    Tension
  12. Type of collision in which the total momentum of the system is zero
    Explosion
  13. Force that is perpendicular to a surface
    Normal Force
  14. Friction present as an object slides across a surface
    Kinetic Friction
  15. A change in momentum or the product of Force and Time
    Impulse
  16. The rate at which work is done
    Power
  17. Type of collision in which objects bounce off of one another
    Elastic Collision
  18. The change in position of an object
    Displacement
  19. The vector sum of the forces acting on an object
    Net Force
  20. A quantity that includes magnitude only
    Scalar
  21. Collision in which two objects stick together
    Inelastic Collision
  22. A force exerted over a distance or a change in energy
    Work
  23. Net Force that causes an object to move in a circular path
    Centripetal Force
  24. The total length of the path travelled between two positions
    Distance
  25. Energy associated with an objects position above the ground
    Gravitational Potential Energy
  26. Energy associated with an objects motion
    Kinetic Energy
  27. The rate at which an objects position is changing
    Velocity
  28. The product of mass and velocity
    Momentum
  29. Number of cycles or oscillations per second
    Frequency
  30. Time to complete one cylcle or oscillation
    Period
  31. The acceleration of an object is directly proportional to the net force and inversely proportional to the objects mass
    Newton's 2nd Law
  32. For every action there is an equal and opposite reaction
    Newton's 3rd Law
  33. An object in motion remains in motion and an object at rest remains at rest unless acted on by an external force
    Newton's 1st Law