Conceptual Physics 11th Edition

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Presentation transcript:

Conceptual Physics 11th Edition Chapter 15: TEMPERATURE, HEAT AND EXPANSION Temperature Heat Specific Heat Capacity Thermal Expansion Thermal Expansion of Water and Ice [iphone app image from https://itunes.apple.com/ca/app/cp24-torontos-breaking-news/id427789138?mt=8 ]

Temperature A number that corresponds to the warmth or coldness of an object Measured by a thermometer Is a per-particle property No upper limit The lower limit is called “absolute zero”

Temperature Temperature is proportional to the average translational kinetic energy per particle in a substance. Gas—how fast the gas particles are bouncing to and fro Liquid—how fast particles slide and jiggle past one another Solid—how fast particles move as they vibrate and jiggle in place [animated gif downloaded Jan.25 2013 from http://www.deanza.edu/faculty/mccauley/6a_site_images/Translational_motion-250.gif ]

Temperature Thermometer Measures temperature by expansion or contraction of a liquid (mercury or colored alcohol) Reading occurs when the thermometer and the object reach thermal equilibrium (having the same average kinetic energy per particle) Infrared thermometers operate by sensing IR radiation [image downloaded Jan.25 2013 from http://drrajivdesaimd.com/date/2012/10/ ]

Temperature scales Celsius Fahrenheit Kelvin 0C for freezing point of water 100C for boiling point of water Fahrenheit 32F for freezing point of water 212F for boiling point of water Kelvin 273 K for freezing point of water 373 K for boiling point of water 0 at absolute zero same size degrees as Celsius scale

Heat is a form of energy Flow of internal energy Heat is when internal energy is transferred from one thing to another due to a temperature difference Heat is internal energy in transit Flow of internal energy Heat flows from a high-temperature substance to a low-temperature substance until thermal equilibrium is reached Heat never flows unassisted from a low-temperature to a high-temperature substance [image downloaded Jan.25 2013 from http://summitjourneytowellness.blogspot.ca/2010/02/journey-to-wellness_5148.html ]

Quantity of heat Measured in joules or calories 4.18 joules of heat are required to change the temperature of 1 gram of water by 1 Celsius degree 4.18 joules = 1 calorie [photo by Scott Wallace, downloaded Jan.25 2013 from http://www.compadre.org/informal/index.cfm?Issue=11 ]

Quantity of Heat Energy ratings of foods and fuels are determined from energy released when they are burned. Unit of energy, the Calorie, is common for foods. kilocalorie or 1000 calories called a Calorie heat needed to change the temperature of 1 kg of water by 1C

Specific heat capacity Defined as the quantity of heat required to change the temperature of 1 kg of the substance by 1 degree Celsius Like thermal inertia—resistance of a substance to a change in temperature [image downloaded Jan.25 2013 from http://video.planetgreen.discovery.com/home-garden/hot-water-bottle-bed.html ]

Specific Heat Capacity Different substances have different thermal capacities for storing energy. Example: Takes about 2 minutes to raise the temperature of an iron pot of water to boiling temperature Takes less than 1 minute to raise the temperature of the same quantity of water in a silver pot to boiling temperature

The high specific heat capacity of water has higher capacity for storing energy than almost any other substance. involves various ways that energy can be absorbed. increases the jiggling motion of molecules, which raises the temperature increases the amount of internal vibration or rotation within the molecules, which becomes potential energy and doesn’t raise temperature water molecules can absorb energy without increasing translational kinetic energy

Specific heat affects climate Land has a smaller specific heat capacity than water. For Europeans, the Atlantic Ocean current carries warm water northeast from the Caribbean regions and retains much of its internal energy long enough to reach the North Atlantic Ocean.

Thermal expansion Due to rise in temperature of a substance, molecules jiggle faster and move farther apart. Most substances expand when heated and contract when cooled. Railroad tracks laid on winter days expand and can buckle in hot summer. [image downloaded Jan. 25 2013 from http://hyperphysics.phy-astr.gsu.edu/hbase/thermo/jarlid.html ] Warming metal lids on glass jars under hot water loosens the lid by more expansion of the lid than the jar.

Thermal expansion Plays a role in construction and devices. Example: Use of reinforcing steel with the same rate of expansion as concrete—expansion joints on bridges. Gaps on concrete roadways and sidewalks allow for concrete expansion in the summer and contraction in the winter.

Thermal expansion Different substances expand at different rates. Example: When the temperature of a bimetallic strip of brass and iron is increased, greater expansion occurs for the brass strip, which bends to turn a pointer, to regulate a valve, or to close a switch. Bimetallic strips are used in heaters, oven thermometers, refrigerators, and electric toasters.

Thermal Expansion: The exception to the rule Expansion of water to ice When water becomes ice, it expands! Ice has open-structured crystals resulting from strong bonds at certain angles that increase its volume. This make ice less dense than water.

Thermal expansion of water When ice freezes to become solid ice, its volume increases tremendously. As solid ice cools further, it contracts. Density of ice at any temperature is much lower than the density of water, which is why ice always floats on water.