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

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.


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