ElasticPotentialenergyenergystored inobjectsbeingcompressedor stretched EnergyAbility tocausechangeLaw ofConservationof Energy:energycan never becreated ordestroyed, it canonly changeforms. Nuclear:comesfrom releasingenergy from thenucleus of anatom; used innuclear powerplants. Thermalheat thatcomes fromfire, sun,etc.; used toheatobjects Conductiontransfer ofenergythrough matterbydirect contact ofparticles. PotentialenergyStoredenergyChemicalPotentialenergyenergystored inchemicalbonds ofcompounds. ElectromagneticWaveswaves capableoftransferringenergy througha vacuum. Radiantit thatcomes from thesun and lightbulbs; used tosee and as apower source. Wave:a rhythmicdisturbance thattransfersenergy throughmatter or space. Insulatorsmaterialsthat donot allowheat toflow easily Conductorsmaterialsthatallow heat tofloweasily Radiationtransferof energythroughelectromagneticwaves.  Convection:transfer ofenergyby themovementof heatedparticles. Electromagneticform of energythat is reflected oremitted in the formof electrical andmagnetic wavesthat can travelthrough space.  Heatthe transferof energyfrom oneobject toanother. GravitationalPotentialEnergyEnergy storedin objects thatare above theEarth’ssurface.KineticenergyenergyinmotionMechanicalWaveswaves thatcan onlytravelthrough amedium. Temperaturea measure oftheaverage kineticenergy ofparticlesin an object. Thermalenergythe sum ofkinetic andpotentialenergy of theparticles in anobject. Electricalenergycomes fromoutlets andpower plants;used to powerelectricaldevice Mechanicalenergythe totalamount ofkinetic andpotentialenergy in asystem. ElasticPotentialenergyenergystored inobjectsbeingcompressedor stretched EnergyAbility tocausechangeLaw ofConservationof Energy:energycan never becreated ordestroyed, it canonly changeforms. Nuclear:comesfrom releasingenergy from thenucleus of anatom; used innuclear powerplants. Thermalheat thatcomes fromfire, sun,etc.; used toheatobjects Conductiontransfer ofenergythrough matterbydirect contact ofparticles. PotentialenergyStoredenergyChemicalPotentialenergyenergystored inchemicalbonds ofcompounds. ElectromagneticWaveswaves capableoftransferringenergy througha vacuum. Radiantit thatcomes from thesun and lightbulbs; used tosee and as apower source. Wave:a rhythmicdisturbance thattransfersenergy throughmatter or space. Insulatorsmaterialsthat donot allowheat toflow easily Conductorsmaterialsthatallow heat tofloweasily Radiationtransferof energythroughelectromagneticwaves.  Convection:transfer ofenergyby themovementof heatedparticles. Electromagneticform of energythat is reflected oremitted in the formof electrical andmagnetic wavesthat can travelthrough space.  Heatthe transferof energyfrom oneobject toanother. GravitationalPotentialEnergyEnergy storedin objects thatare above theEarth’ssurface.KineticenergyenergyinmotionMechanicalWaveswaves thatcan onlytravelthrough amedium. Temperaturea measure oftheaverage kineticenergy ofparticlesin an object. Thermalenergythe sum ofkinetic andpotentialenergy of theparticles in anobject. Electricalenergycomes fromoutlets andpower plants;used to powerelectricaldevice Mechanicalenergythe totalamount ofkinetic andpotentialenergy in asystem. 

Energy and its transformations - Call List

(Print) Use this randomly generated list as your call list when playing the game. 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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G G
2
B B
3
O O
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G G
5
B B
6
I I
7
N N
8
O O
9
B B
10
G G
11
G G
12
I I
13
N N
14
G G
15
N N
16
I I
17
O O
18
B B
19
I I
20
I I
21
B B
22
N N
23
O O
24
O O
  1. G-energy stored in objects being compressed or stretched
    G-Elastic Potential energy
  2. B-Ability to cause change
    B-Energy
  3. O-energy can never be created or destroyed, it can only change forms.
    O-Law of Conservation of Energy:
  4. G-comes from releasing energy from the nucleus of an atom; used in nuclear power plants.
    G-Nuclear:
  5. B-heat that comes from fire, sun, etc.; used to heat objects
    B-Thermal
  6. I-transfer of energy through matter by direct contact of particles.
    I-Conduction
  7. N-Stored energy
    N-Potential energy
  8. O-energy stored in chemical bonds of compounds.
    O-Chemical Potential energy
  9. B-waves capable of transferring energy through a vacuum.
    B-Electromagnetic Waves
  10. G-it that comes from the sun and light bulbs; used to see and as a power source.
    G-Radiant
  11. G-a rhythmic disturbance that transfers energy through matter or space.
    G-Wave:
  12. I-materials that do not allow heat to flow easily
    I-Insulators
  13. N-materials that allow heat to flow easily
    N-Conductors
  14. G-transfer of energy through electromagnetic waves.
    G-Radiation
  15. N-transfer of energy by the movement of heated particles.
    N-Convection:
  16. I-form of energy that is reflected or emitted in the form of electrical and magnetic waves that can travel through space.
    I-Electromagnetic
  17. O-the transfer of energy from one object to another.
    O-Heat
  18. B-Energy stored in objects that are above the Earth’s surface.
    B-Gravitational Potential Energy
  19. I-energy in motion
    I-Kinetic energy
  20. I-waves that can only travel through a medium.
    I-Mechanical Waves
  21. B-a measure of the average kinetic energy of particles in an object.
    B-Temperature
  22. N-the sum of kinetic and potential energy of the particles in an object.
    N-Thermal energy
  23. O-comes from outlets and power plants; used to power electrical device
    O-Electrical energy
  24. O-the total amount of kinetic and potential energy in a system.
    O-Mechanical energy