PEpotentialenergyforcePushor pulls=d/tspeed =dividedby timevectorhavingmagnitude(number)and directionheatenergyenergytransfer:iron, sun insulatorslows downthemovementof electronsp=mvmomentum= masstimesvelocity Frictionforce ofresistance whenone object istraveling overanother: slidingfeet on carpet Gravityforce whichkeeps uson theground repulsionlikeparticles(++) (--)KEkineticenergyMassamountof stuff ina space Tensiontautness:string,cable,wirekineticenergyenergywhen anobject isin motion aaccelerationchemicalenergyenergyreleasedfrom atoms:coal, gas,fire sonicenergysoundDisplacementamounttraveledfrom startelectricalfielda spacethat affectschargedparticles atomsmallestpart ofanysubstancespeedthe ratethatsomethingmoves conductorallows forfreemovementof electronsneutronparticlewith nochargepmomentummomentumquantity ofmotion ofa movingobject normalforcetwo surfacespressingagainsteach otherelasticcollisionno lossof kineticenergy applieda personpushing/pullingon an object Springforcethat hasa spring law ofconservationof energyenergycannot becreated nordestroyed mmassinelasticcollisionkinetic energywill transforminto anotherenergy type:sound, heat attractionunlikeparticles(-+)vvelocityvelocityratetravelingplusdirection Airforce thatpushes againstobjectstravelingthrough electricalenergyenergyfromchargedparticles protonparticlewithpositivechargemghPEformulaDistanceamountof groundtraveled electronparticlewith anegativechargekinematicsthe studyof objectsin motionf=maforce =mass timesacceleration accelerationchange inspeed/velocitypotentialenergyenergy that anobject has when itis not moving(usually related togravity, so howhigh something isoff the ground)scalarhavingmagnitude(number),no direction mechanicalenergyenergy fromits position:bicyclepedals, lightswitch currentthe ratethat thecharge isflowingPEpotentialenergyforcePushor pulls=d/tspeed =dividedby timevectorhavingmagnitude(number)and directionheatenergyenergytransfer:iron, sun insulatorslows downthemovementof electronsp=mvmomentum= masstimesvelocity Frictionforce ofresistance whenone object istraveling overanother: slidingfeet on carpet Gravityforce whichkeeps uson theground repulsionlikeparticles(++) (--)KEkineticenergyMassamountof stuff ina space Tensiontautness:string,cable,wirekineticenergyenergywhen anobject isin motion aaccelerationchemicalenergyenergyreleasedfrom atoms:coal, gas,fire sonicenergysoundDisplacementamounttraveledfrom startelectricalfielda spacethat affectschargedparticles atomsmallestpart ofanysubstancespeedthe ratethatsomethingmoves conductorallows forfreemovementof electronsneutronparticlewith nochargepmomentummomentumquantity ofmotion ofa movingobject normalforcetwo surfacespressingagainsteach otherelasticcollisionno lossof kineticenergy applieda personpushing/pullingon an object Springforcethat hasa spring law ofconservationof energyenergycannot becreated nordestroyed mmassinelasticcollisionkinetic energywill transforminto anotherenergy type:sound, heat attractionunlikeparticles(-+)vvelocityvelocityratetravelingplusdirection Airforce thatpushes againstobjectstravelingthrough electricalenergyenergyfromchargedparticles protonparticlewithpositivechargemghPEformulaDistanceamountof groundtraveled electronparticlewith anegativechargekinematicsthe studyof objectsin motionf=maforce =mass timesacceleration accelerationchange inspeed/velocitypotentialenergyenergy that anobject has when itis not moving(usually related togravity, so howhigh something isoff the ground)scalarhavingmagnitude(number),no direction mechanicalenergyenergy fromits position:bicyclepedals, lightswitch currentthe ratethat thecharge isflowing

Physics - 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. potential energy
    PE
  2. Push or pull
    force
  3. speed = divided by time
    s=d/t
  4. having magnitude (number) and direction
    vector
  5. energy transfer: iron, sun
    heat energy
  6. slows down the movement of electrons
    insulator
  7. momentum = mass times velocity
    p=mv
  8. force of resistance when one object is traveling over another: sliding feet on carpet
    Friction
  9. force which keeps us on the ground
    Gravity
  10. like particles (++) (--)
    repulsion
  11. kinetic energy
    KE
  12. amount of stuff in a space
    Mass
  13. tautness: string, cable, wire
    Tension
  14. energy when an object is in motion
    kinetic energy
  15. acceleration
    a
  16. energy released from atoms: coal, gas, fire
    chemical energy
  17. sound
    sonic energy
  18. amount traveled from start
    Displacement
  19. a space that affects charged particles
    electrical field
  20. smallest part of any substance
    atom
  21. the rate that something moves
    speed
  22. allows for free movement of electrons
    conductor
  23. particle with no charge
    neutron
  24. momentum
    p
  25. quantity of motion of a moving object
    momentum
  26. two surfaces pressing against each other
    normal force
  27. no loss of kinetic energy
    elastic collision
  28. a person pushing/pulling on an object
    applied
  29. force that has a spring
    Spring
  30. energy cannot be created nor destroyed
    law of conservation of energy
  31. mass
    m
  32. kinetic energy will transform into another energy type: sound, heat
    inelastic collision
  33. unlike particles (-+)
    attraction
  34. velocity
    v
  35. rate traveling plus direction
    velocity
  36. force that pushes against objects traveling through
    Air
  37. energy from charged particles
    electrical energy
  38. particle with positive charge
    proton
  39. PE formula
    mgh
  40. amount of ground traveled
    Distance
  41. particle with a negative charge
    electron
  42. the study of objects in motion
    kinematics
  43. force = mass times acceleration
    f=ma
  44. change in speed/velocity
    acceleration
  45. energy that an object has when it is not moving (usually related to gravity, so how high something is off the ground)
    potential energy
  46. having magnitude (number), no direction
    scalar
  47. energy from its position: bicycle pedals, light switch
    mechanical energy
  48. the rate that the charge is flowing
    current