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Ch. 13 Heat & Temperature Notes

Ch. 13 Heat & Temperature Notes. Video Clip 20 & 21. http://www.animatedscience.co.uk/flv /. Temperature. is a measure of the average kinetic energy of all particles within an object. indicates how warm or cold an object is with regards to the standard.

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Ch. 13 Heat & Temperature Notes

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  1. Ch. 13 Heat & Temperature Notes

  2. Video Clip 20 & 21 • http://www.animatedscience.co.uk/flv/

  3. Temperature • is a measure of the average kinetic energy of all particles within an object. • indicates how warm or cold an object is with regards to the standard.

  4. A thermometer is a device that measures temperature.

  5. Temperature Scales • Fahrenheit is a temperature scale used mostly in the United States. • Celsius is the temperature scale used mostly in other countries and in science. Based on 0 C being freezing point and 100 C being boiling point, the difference between those two points is divided up into 100 equal parts. • Kelvin scale is the temperature scale used by scientists, where all of the numbers are positive. It is based off the idea of absolute zero.

  6. What is the Celsius to Fahrenheit conversion? • F = (1.8 x C) + 32.0 • Convert 25 C to  F •  F = 77 (Did you get it right? Try this one!) • Convert 0 C to  F •  F = 32 (The freezing & melting point of water)

  7. What is the Fahrenheit to Celsius conversion? • C = (F - 32.0) 1.8 • Convert your body temperature 98.6 F to C . • C = 37 • Convert a warm Spring day’s temperature of 78 F to C • C = 26

  8. What is the Celsius to Kelvin conversion? • K = C + 273 • Convert the temperature of a winter day at the North Pole (- 40.0 C) to both degrees Fahrenheit and Kelvin.

  9. Try it using the usual set up

  10. Absolute zero • is the lowest possible temperature . An object’s energy is zero. There is no possible transfer of energy.

  11. Dealing with temperature when does an energy transfer occur? • The feeling associated with temperature difference results from energy transfer. • Energy is transferred from a hotter object to a cooler object.

  12. Example –Holding a piece of ice. • The ice is at a lower temperature than your hand, so the molecules of ice move very slowly. Your hand’s molecules are moving much faster than the ice because it is at a higher temperature. As a result, the molecules of your hand collide with the ice molecules and energy is transferred so the ice molecules start to move faster causing the ice to melt.

  13. When is there no transfer of energy in regards to temperature? • If both objects are the same temperature there is no transfer of energy AND • when the temperature is at absolute zero.

  14. Heat • is the transfer of energy from the particles of one object due to a temperature difference between the two objects.

  15. http://www.middleschoolchemistry.com/multimedia/chapter2/lesson5#melting_icehttp://www.middleschoolchemistry.com/multimedia/chapter2/lesson5#melting_ice http://www.middleschoolchemistry.com/multimedia/chapter2/lesson5#melting_ice

  16. Sect. 10.2 Energy Transfer Notes

  17. Three methods of energy transfer … • Conduction • Convection • Radiation

  18. What is conduction? • It is the transfer of energy as heat between particles as they collide within a substance or between two objects in contact. • http://www.animatedscience.co.uk/flv/ (24)

  19. Two factors involved in conduction • Has the direct contact of objects or atoms. • Usually is an energy transfer between solids • Example: • Leaving a metal spoon in a pot of soup cooking on the stove.

  20. When you heat a metal strip at one end, the heat travels to the other end.

  21. What is convection? • It is the transfer of energy by the movement of fluids with different temperature. • http://www.animatedscience.co.uk/flv/ (27)

  22. How does convection move? • It is a result from the movement of hotter fluids to colder fluids.

  23. Two Types of Fluids • Gases and liquids.

  24. Convection current. • is the flow of a fluid due to the heated expansion followed by cooling and contraction • Examples: • Glowing embers caught in the warmed air above a campfire, or the movement inside the earth for the plate tectonic movement.

  25. Water movement Cools at the surface Convection current Hot water rises Cooler water sinks

  26. What is radiation? • Radiation is the transfer of energy by electromagnetic waves. • Examples: • When you stand by fire, your skin absorbs the energy radiated by the fire. • http://www.animatedscience.co.uk/flv/ (29)

  27. How does heat energy get from the Sun to the Earth? There are no particles between the Sun and the Earth so it CANNOT travel by conduction or by convection. RADIATION ?

  28. How does radiation differ from conduction and convection? • It does not involve or the movement of matter (or physical contact between objects). So it can travel through a vacuum like space.

  29. How is radiation like convection? • Radiation is like convection in that it can travel through fluids.

  30. Conductors • are materials through which energy can easily be transferred as heat. • Examples - Some cooking pan, copper, and silver. • In general metals are better than nonmetals.

  31. Insulators • are materials that are poor energy conductors. • Examples - Some insulators are wood, foam, rubber, and polystyrene

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