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C H 10 H EAT pgs. 357 - 386. T EMPERATURE Adding or removing energy usually changes temperature Temperature is proportional to the kinetic energy of atoms.

Published byLester Nash Modified over 9 years ago

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Presentation on theme: "C H 10 H EAT pgs. 357 - 386. T EMPERATURE Adding or removing energy usually changes temperature Temperature is proportional to the kinetic energy of atoms."— Presentation transcript:

1 C H 10 H EAT pgs. 357 - 386

2 T EMPERATURE Adding or removing energy usually changes temperature Temperature is proportional to the kinetic energy of atoms and molecules

3 T EMPERATURE Temperature is meaningful only when it is stable Thermal Equilibrium – the state when two objects in physical contact have identical temperatures Matter expands as temperature increases (thermal expansion)

4 M EASURING T EMPERATURE Thermometers Most make use of a change in the volume of a gas or liquid Most are thin glass tubes containing mercury, colored alcohol, or colored mineral spirits

5 M EASURING T EMPERATURE Calibrating thermometers requires fixed temperatures Ice point of water – thermometer in equilibrium with a mixture of ice and water at 1 atm Steam point of water – thermometer in equilibrium with a mixture of steam and water at 1 atm

6 T EMPERATURE C ONVERSION Temperature in Fahrenheit (T F ) Units are °F Temperature in Celsius (T C ) Units are °C

7 T EMPERATURE C ONVERSION Temperature in Celsius (T C ) Units are °C Temperature in Kelvin (T) Units are K

8

9 H EAT AND E NERGY Heat – the energy transferred between objects because of a difference in their temperatures Always moves from the object with the higher temperature to the object with the lower temperature

10 H EAT AND E NERGY

11 The transfer of energy as heat alters an object’s temperature Energy transfer depends on the difference of temperature of the two objects

12 H EAT AND E NERGY Greater temperature difference = greater amount of energy transferred At thermal equilibrium, the net energy exchanged is zero

13 H EAT (Q) Heat (Q) has units of energy

14 I NTERNAL E NERGY (U) The energy of a substance due to atomic motion Units are Joules (J)

15 I NTERNAL E NERGY (U) Internal energy can be changed through work (friction) The energy required to overcome friction is transformed into internal energy Internal energy can also be changed by deforming a solid’s structure Stretching a rubber band or bending metal

16 C ONSERVATION OF E NERGY

17 ½ mv i 2 + mgh i = ½ mv f 2 + mgh f + ΔU

18 A device used to demonstrate energy conservation is shown. If a total mass of 11.5 kg falls 1.3 m and all of the mechanical energy is converted to internal energy, by how much will the internal energy of the water increase? (Assume no energy is transferred to or from the surroundings.)

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