Notes
Slide Show
Outline
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Heating the Earth
  • Energy From the Sun
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Where We Get Our Energy
  • The Sun is a major source of energy for Earth.
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Forms of Energy
  • Different forms of energy include heat, light, electrical, mechanical, sound, nuclear, and chemical.
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Electromagnetic Energy
  • Different forms of electromagnetic energy have different wavelengths.
  • Examples of electromagnetic energy are:
    •  microwaves
    • infrared light
    • visible light
    • ultraviolet light
    • X-rays
    • gamma rays.
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Electromagnetic Spectrum
  • The entire range of radiant energy, including for example, X-ray, visible light, infrared radiation, radio waves, etc.
  • The full set of waves that can travel through space; includes not only visible light but shorter waves, such as X -rays, and longer waves, such as radio waves
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Changing Energy
  • Energy is transformed in many ways.
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Changing Energy
  • Energy can change from one form into another
  • In the process some energy is always converted to heat.
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Conservation of Energy
  • Energy cannot be created or destroyed, but only changed from one form into another.
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Heat Energy
  • The energy of a material due to the random motion of its particles (atoms 7 molecules).
  • Also called thermal energy.
  • “Heat" is used when energy is transferred from one substance to another.
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Heat Energy Explains Phases of Matter
  • The motion of particles (atoms & molecules) helps to explain:
    • the phase (states) of matter
    • changes from one phase to another.
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Phases (states) of Matter
  • Gases have neither a determined shape nor a definite volume. Gases assume the shape and volume of a closed container.
  • Liquids have a definite volume, but take the shape of a container.
  • Solids have a definite shape and volume. Particles resist a change in position.
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Heat Energy Causes Phase Changes
  • During a phase change, heat energy is absorbed or released.
  • Energy is absorbed when:
    • a solid changes to a liquid (melting)
    • a liquid changes to a gas (evaporation)
    • a solid changes directly to a gas (sublimation)


  • Energy is released when:
    • a gas changes to a liquid (condensation)
    • a liquid changes to a solid (freezing)
    • A gas changes directly to a solid, such a forming frost or snow flakes in clouds (crystallization).
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Heat Energy Moves
  • Heat can be transferred through:
    • matter by the collision of atoms and/or molecules (conduction)
    • through space (radiation.)
    • In a liquid or gas, currents will cause the transfer of heat (convection.)
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Heat Energy Moves
  • Heat moves in predictable ways, flowing from warmer objects to cooler ones, until both reach the same temperature
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Heat Moves Through the Atmosphere
  • The transfer of energy within the atmosphere results in formation of regions of different densities.
  • These density differences result in motion.
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Heat & Density
  • In fluids (liquids and gases), less dense (cooler) substances can rise and more dense (warmer) substances can sink.
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Heat Movement & Density in the Atmosphere
  • The transfer of heat energy within the atmosphere occurs as a result of radiation, convection, and conduction.
  • Density differences are the basis for many Earth phenomena, including cloud formation and the formation of atmospheric storms.
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Heat Movement & Density in the Atmosphere
  • Heating of Earth’s surface and atmosphere by the Sun drives convection within the atmosphere and oceans, producing winds and ocean currents.
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Uneven Heating
  • Insolation (Incoming solar radiation) heats Earth’s surface and atmosphere unequally due to variations in:
    • intensity (caused by variations in angle of incidence which vary with time of day, latitude, and season);
    • characteristics of the surface materials absorbing the energy (such as color, texture, transparency, states of matter, and specific heat); and
    • duration which varies with seasons and latitude.
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"http://ithacasciencezone.com/earthzone/lessons/07meteor/insolation.htm"
  • http://ithacasciencezone.com/earthzone/lessons/07meteor/insolation.htm
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Weather & Seasons
  • Seasons and weather are NOT the same thing
  • Seasons are caused by:
    • Earth’s tilt
    • Earth’s revolution by around the Sun
      • Resulting in the Earth getting different intensities of energy from the Sun (heat & light) at different times of the year
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Weather & Seasons
  • Seasonal changes in weather can be explained using concepts of density and heat energy. These changes include: the shifting of global temperature zones, the shifting of planetary wind and ocean current patterns, the occurrence of hurricanes, monsoons, rainy and dry seasons, flooding, severe weather, and ozone depletion.
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Big Science Idea:
  • The atmosphere is an ocean of air that extends hundreds of kilometers about the Earth's surface.
  • It is divided according to temperature into four layers - the troposphere, the stratosphere, the mesosphere, and the thermosphere.
  • The lowest layer, the troposphere is where air masses form.
  • Air masses have different characteristics because the areas over which they form receive different amounts of heat energy from the sun.
  • The uneven heating of Earth’s surface is the cause of weather.
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Let’s Review:
  • http://wps.prenhall.com/esm_lutgens_atmosphere_8/0,6585,263598-,00.html
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References
  • http://www.earth2class.org
  • http://universityforholisticarts.org/files/QuickSiteImages/QS_sun_background.jpg
  • http://science.uniserve.edu.au/school/curric/k_6/solar.jpg
  • http://genesismission.jpl.nasa.gov/science/mod3_SunlightSolarHeat/img1.gif
  • http://discover.edventures.com/images/termlib/f/fossil_fuels/support.gif
  • http://www.stanford.edu/group/Urchin/GIFS/spectrum.gif
  • http://www.projectgreenmachine.org/7F-all.html
  • http://www.nasa.gov/centers/langley/images/content/114284main_EM_Spectrum500.jpg
  • http://www.swinburne.edu.au/corporate/hr/ohs/images/radiofrequency.jpg
  • www12.mawebcenters.com/coltslaboratories/gloss.ivnu
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References
  • www.riverdeep.net/current/2002/01/010702_light_tg.jhtml
  • www.yorku.ca/eye/spectru.htm
  • http://sol.sci.uop.edu/~jfalward/physics17/chapter3/energytransformation.jpg
  • http://www.tburg.k12.ny.us/mcdonald/chain.jpg.gif
  • http://www.bchydro.com/images/rx_images/community/body2880.gif
  • http://www.bioedonline.org/slides/slideimgs/talk007__s014_f.gif
  • http://www.eia.doe.gov/kids/energyfacts/science/images/EnergyTransformations.gif
  • http://user.gs.rmit.edu.au/caa/global/graphics/insolation.jpg
  • http://www.boscobel.k12.wi.us/~schnrich/uneven_heating.htm
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References
  • http://www.miramar.sdccd.cc.ca.us/faculty/fgarces/zCourse/Spring05/Ch100_OL/aMy_FileLec/04_LecNotes_Ch100/13_LiquidSolids/1301_LiquidSolid/1301_liquidSolids.htm
  • http://www.physics.brocku.ca/courses/1p93/images/FG11_16.gif
  • www.grc.nasa.gov/WWW/K-12/airplane/heat.html
  • http://www.cloudappreciationsociety.org/3content/news/hollingshead/i000766big.jpg
  • http://www.anchorflagandflagpole.com/images/PHOTO_windsock_detail.gif
  • http://www.nmm.ac.uk/upload/img/currents.gif
  • http://www.mhhe.com/earthsci/geology/mcconnell/earths_climate/gac.htm