1 / 32

17.1 Atmosphere Characteristics

Weather vs. Climate. 17.1 Atmosphere Characteristics. Weather is constantly changing, and it refers to the state of the atmosphere at any given time and place.

alleman
Download Presentation

17.1 Atmosphere Characteristics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Weather vs. Climate 17.1 Atmosphere Characteristics • Weather is constantly changing, and it refers to the state of the atmosphere at any given time and place. • Climate, however, is based on observations of weather that have been collected over many years. Climate helps describe a place or region.

  2. Volume of Clean, Dry Air What is the most abundant gas in our atmosphere? What is the second most common gas?

  3. Composition of the Atmosphere 17.1 Atmosphere Characteristics  Variable Components • Water vapor is the source of all clouds and precipitation • carbon dioxide, water vapor absorbs heat given off by Earth. It also absorbs some solar energy. • Ozone is a form of oxygen that combines three oxygen atoms into each molecule (O3). • ozone filters UV radiation in the stratosphere allowing life to exist as we know it, • In troposphere ozone causes smog

  4. Primary Pollutants What is a primary pollutant? What is responsible for the majority of the primary pollutants?

  5. Height and Structure of the Atmosphere 17.1 Atmosphere Characteristics  Pressure Changes affect temprature • Atmospheric pressure is simply the weight of the air above. • An increase in altitude = decrease in pressure • Decreases in pressure =decrease in temperature

  6. Atmospheric Pressure vs. Altitude Why does the atmosphere thin (become less dense) with altitude? What affect does this have on temperature?

  7. Height and Structure of the Atmosphere 17.1 Atmosphere Characteristics  Temperature Changes Why is the Atmosphere Divided into Layers? • The atmosphere is divided vertically into four layers based on temperature change. • tropospherebottom layer of the atmosphere where temperature decreases with an increase in altitude. Decreased pressure = decreased temp • stratospherelayer on top of troposphere temperature gradual increase because of O3

  8. Snowy Mountaintops Contrast with Warmer Snow-Free Lowlands

  9. Height and Structure of the Atmosphere 17.1 Atmosphere Characteristics  Temperature Changes • mesosphere the layer above the stratosphere and is characterized by decreasing temperatures with height, contains no O3 • thermosphere the layer above the mesosphere and is characterized by increasing temperatures due to the absorption of very short-wave solar energy, atoms absorb max energy

  10. Thermal Structure of the Atmosphere

  11. Earth-Sun Relationships 17.1 Atmosphere Characteristics  Earth’s Motions • rotation = day and night; revolution = seasons  Why do we have seasons? • Seasonal changes occur because of earths revolution around the sun and Earth’s axis is tilted to 23.5O

  12. Tilt of Earth’s Axis

  13. Earth-Sun Relationships 17.1 Atmosphere Characteristics  Solstices and Equinoxes • summer solstice occurs on June 21 or 22 in the Northern Hemisphere and is the “official” first day of summer. • winter solstice occurs on December 21 or 22 in the Northern Hemisphere and is the “official” first day of winter. During our winter solstice what season is it in Australia?

  14. Earth-Sun Relationships 17.1 Atmosphere Characteristics  Solstices and Equinoxes • autumnal equinox (Fall) occurs on September 22 or 23 in the Northern Hemisphere. • spring equinox (vernal) occurs on March 21 or 22 in the Northern Hemisphere.

  15. How is the length of daylight compared to the length of darkness determined? 17.1 Atmosphere Characteristics is determined by Earth’s position in orbit. Think of the Arctic and Antarctic circle. • http://esminfo.prenhall.com/science/geoanimations/animations/01_EarthSun_E2.html

  16. Solstices and Equinoxes

  17. Energy Transfer as Heat 17.2 Heating the Atmosphere  Heat energy transferred from one object to another because of a difference in the objects’ temperature.  Temperaturea measure of the average kinetic energy a substance, hot more kinetic energy, cold less kinetic energy

  18. 17.2 Heating the Atmosphere What are the three mechanisms of energy transfer as heat? 1. Conductiontransfer of heat through solids What are insulators? What are conductors? 2. Convectiontransfer of heat through fluids

  19. 17.2 Heating the Atmosphere 3. Radiation transfer of energy (heat) through space by electromagnetic waves, can travel through the vacuum of space others can not How does wavelength Relate to radiant temperature? 6000Co=11000Fo

  20. Energy Transfer as Heat

  21. 17.2 Heating the Atmosphere Electromagnetic Waveseverything that has heat emits these waves. Energy emitted by the sun are part of the electromagnetic spectrum Are good absorbers also good emitters of radiant energy?

  22. Visible Light Consists of an Array of Colors Why can you see the spectrum of electromagnetic waves?

  23. Solar Radiation What Happens to Solar Radiation?

  24. What Happens to Solar Radiation? 17.2 Heating the Atmosphere • Reflection when light bounces off an object, with same intensity as incident radiation. • Scattering when light bounces off an object producing a larger number of weaker rays that travel in different directions.

  25. 17.2 Heating the Atmosphere  Absorption • 50 percent of the solar energy that strikes the top of the atmosphere reaches Earth’s surface and is absorbed. • greenhouse effect heating of Earth’s surface and atmosphere from solar radiation being absorbed and emitted by the atmosphere, two main gasses involved water vapor and carbon dioxide.

  26. Global warming (climate change): the Green House Effect sped up by human activity What is the Green House Effect? What are the main gases that cause the effect? What are the main greenhouse gases in troposphere causing global warming?

  27. What are the 6 things causing Temperatures to vary? 17.3 Temperature Controls 1. Land (low specific heat capacity) heats more rapidly and to higher temperatures, also cools more rapidly and to lower temperatures. Deserts cold at night hot during day 2. Water (high specific heat capacity) heats up slowly and cools down slowly

  28. Mean Monthly Temperatures for Vancouver and Winnipeg Which is close to the ocean? What is the effect? Which is furthest from the ocean? What is the effect?

  29. 17.3 Temperature Controls 3. geographic setting How does geographic position influence these two cities?

  30. 17.3 Temperature Controls 4. altitude How does altitude influence temperature?

  31. 17.3 Temperature Controls 5. Cloud cover high albedo therefore reflect back to space a significant portion of suns energy • Albedo is the fraction of total radiation that is reflected by any surface. How does cloud albedo affect these two pictures?

  32. World Distribution of Temperature 17.3 Temperature Controls  Isotherms lines on a weather map that connect points of the same temperature What do you notice about the isotherms in the north compared to the south?

More Related