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Chapter 6

Chapter 6. Temperature related to the average kinetic energy of an object’s atoms or molecules Thermal energy the sum of kinetic & potential energy of all atoms in an object Thermal energy increases as temperature increases. At constant temperature, thermal energy increases if mass increases.

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Chapter 6

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  1. Chapter 6

  2. Temperature • related to the average kinetic energy of an object’s atoms or molecules • Thermal energy • the sum of kinetic & potential energy of all atoms in an object • Thermal energy increases as temperature increases. • At constant temperature, thermal energy increases if mass increases

  3. Heat • Thermal energy that flows from something at a higher temperature to something at a lower temperature • Specific heat • amount of heat needed to raise the temperature of 1 kg of a material by 1 degree C or K Q = m c Δ t

  4. Conduction • transfer of thermal energy through matter by direct contact of particles • Kinetic energy • transferred as particles collide • Solids, particularly metals, are good heat conductors • Convection • transfer of energy by the motion of heated particles in a fluid • Convection currents • transfer heat from warmer to cooler parts of a fluid • create rain forests and deserts over different regions of Earth

  5. Radiation • energy transfer by electromagnetic waves • Some radiation is absorbed and some is reflected when it strikes a material. • faster in a gas than in a liquid or solid. • Most living things control flow of heat by using special features such as fur, blubber or scales • Insulator • material that doesn’t let heat flow through it easily • Gases such as air usually make better insulators than liquids or solids • A vacuum layer in a thermos is a good insulator because it contains almost no matter to allow conduction or convection to occur

  6. Heating systems • warm homes & buildings • Forced-air system • fuel heats air that’s blown through ducts & vents • cool air is returned to furnace to be reheated • Radiator system • hot water or steam in a radiator transfers thermal energy to the air • Electric heating system • electrically heated coils in ceilings or floors heat air by conduction

  7. Solar energy - energy from the Sun • Passive solar heating • Doesn’t use mechanical devices to move heat • Active solar heating systems • use solar collectors to absorb radiant energy, which is circulated through the building • Heat engine • an engine that converts thermal energy into mechanical energy • Internal combustion engine • burns fuel inside the engine cylinders • convert only about 26% of the fuel’s chemical energy to mechanical energy

  8. Heat mover • removes thermal energy from one location and transfers it to another at different temperature • Refrigerator • contains a coolant that absorbs heat from inside of the refrigerator & releases it on the outside as heat • Air conditioners cool warm air • Heat pumps • can both cool and warm air. • The Human body stays cool by evaporating sweat

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