Volumemeasuredin ml orm^3Heat(andsound)When energy is'lost' from asystem, it isalmost alwaystransformedinto :SpecificHeatCapacityHeat energyrequired to changethe temperature of1 kg of asubstance by 1degree celsiusPotentialEnergyStoredenergyCLatent heatofvaporisationThe heat requiredto change thephase of 1 kg ofa substance fromliquid to gas.273To convertto K fromC, add______ForceEqual toPressurex AreadirectlyFor an idealgas,temperatureand volume are_________proportional1 PaHeatEnergyE_hstandsforLatentheat offusionThe heat requiredto change thephase of 1 kg ofa substance fromsolid to liquid.A graph ofpressurevs.VolumeConservationof EnergyEnergycannot becreated ordestroyedChange inTemperatureThe latentheat offusion ofwater.KelvinSometimescalled'absolutetemperature'2100The specificheatcapacity oficeEPressureForceper unitareaPowerAreameasuredin m^24180The specificheatcapacity ofwaterTemperatureA measure ofthe averagekineticenergy ofparticlesThe latentheat ofvaporisationof waterKineticEnergyEnergyofmotionThekineticmodelall matter is made of smallparticles which are inrandom motion. By makingsimple assumptions aboutthese particles a lot aboutthe physical properties ofmatter and how it behavescan be explained.joulesUnit ofworkBDWork= ForcexdistanceinverselyFor an idealgas, pressureand volumeare _________proportionalAA graph ofpressure vstemperatureVolumemeasuredin ml orm^3Heat(andsound)When energy is'lost' from asystem, it isalmost alwaystransformedinto :SpecificHeatCapacityHeat energyrequired to changethe temperature of1 kg of asubstance by 1degree celsiusPotentialEnergyStoredenergyCLatent heatofvaporisationThe heat requiredto change thephase of 1 kg ofa substance fromliquid to gas.273To convertto K fromC, add______ForceEqual toPressurex AreadirectlyFor an idealgas,temperatureand volume are_________proportional1 PaHeatEnergyE_hstandsforLatentheat offusionThe heat requiredto change thephase of 1 kg ofa substance fromsolid to liquid.A graph ofpressurevs.VolumeConservationof EnergyEnergycannot becreated ordestroyedChange inTemperatureThe latentheat offusion ofwater.KelvinSometimescalled'absolutetemperature'2100The specificheatcapacity oficeEPressureForceper unitareaPowerAreameasuredin m^24180The specificheatcapacity ofwaterTemperatureA measure ofthe averagekineticenergy ofparticlesThe latentheat ofvaporisationof waterKineticEnergyEnergyofmotionThekineticmodelall matter is made of smallparticles which are inrandom motion. By makingsimple assumptions aboutthese particles a lot aboutthe physical properties ofmatter and how it behavescan be explained.joulesUnit ofworkBDWork= ForcexdistanceinverselyFor an idealgas, pressureand volumeare _________proportionalAA graph ofpressure vstemperature

Properties of Matter Bingo - 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. measured in ml or m^3
    Volume
  2. When energy is 'lost' from a system, it is almost always transformed into :
    Heat (and sound)
  3. Heat energy required to change the temperature of 1 kg of a substance by 1 degree celsius
    Specific Heat Capacity
  4. Stored energy
    Potential Energy

  5. C
  6. The heat required to change the phase of 1 kg of a substance from liquid to gas.
    Latent heat of vaporisation
  7. To convert to K from C, add ______
    273
  8. Equal to Pressure x Area
    Force
  9. For an ideal gas, temperature and volume are _________ proportional
    directly

  10. 1 Pa
  11. E_h stands for
    Heat Energy
  12. The heat required to change the phase of 1 kg of a substance from solid to liquid.
    Latent heat of fusion
  13. A graph of pressure vs. Volume
  14. Energy cannot be created or destroyed
    Conservation of Energy

  15. Change in Temperature
  16. The latent heat of fusion of water.
  17. Sometimes called 'absolute temperature'
    Kelvin
  18. The specific heat capacity of ice
    2100

  19. E
  20. Force per unit area
    Pressure

  21. Power
  22. measured in m^2
    Area
  23. The specific heat capacity of water
    4180
  24. A measure of the average kinetic energy of particles
    Temperature
  25. The latent heat of vaporisation of water
  26. Energy of motion
    Kinetic Energy
  27. all matter is made of small particles which are in random motion. By making simple assumptions about these particles a lot about the physical properties of matter and how it behaves can be explained.
    The kinetic model
  28. Unit of work
    joules

  29. B

  30. D
  31. = Force x distance
    Work
  32. For an ideal gas, pressure and volume are _________ proportional
    inversely

  33. A
  34. A graph of pressure vs temperature