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Modern Atmosphere and Air Pollution

Modern Atmosphere and Air Pollution .

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Modern Atmosphere and Air Pollution

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  1. Modern Atmosphere and Air Pollution

  2. Sunrise from space over the South China Sea. An astronaut would see something like this; clearly defined bands of color through the atmosphere as the sun rises. High-peaking cumulus clouds, topping out in anvil-head cirrus can be seen as black shadows against the sunlit horizon. The brightness of the colors in the atmosphere in this photograph is due to the amount of dust in the atmosphere. More dust is found in near the equator. There are various sources for such upper level dust. Many dust storms in Africa and ash clouds from major volcanic eruptions are two reasons. Courtesy LPI/NASA

  3. Earth viewed from the Moon

  4. Why is the Sky Blue?

  5. The atmosphere protects Earth Surface Cosmic rays are very high-energy particles, mainly originating outside the Solar System. They may produce showers of secondary particles that penetrate and impact the Earth's atmosphere and sometimes even reach the surface. Composed primarily of high-energy protons and atomic nuclei, they are of mysterious origin.

  6. Pressure vs. Altitude

  7. Air density vs. Altitude

  8. Atmospheric Criterion

  9. Homosphere 0-80 km The gases are mixed nearly uniformly. Heterosphere The gases are not evenly mixed.

  10. Stable Components of the Atmosphere

  11. Atmospheric Temperature Criterion • Troposphere – the region of principal weather activity, 90% of the atmosphere. The upper limit defined by temperature of -57C. • The upper layer is called tropopause, 18 km at the equator and 12 km at middle latitude; 8 km at the poles.

  12. The temperature profile of the troposphere • Normal lapse rate , decrease of 6.4C per km and it is only an average; Standard Atomosphere • The actual lapse rate is called Environmental lapse rate

  13. Stratosphere • Extends from 18 to 50 km from the Earth’s surface. • Temperatures increase with altitude up to 0C at 50 km • The stratosphere is layered in temperature because ozone (O3) here absorbs high energy UVB and UVC energy waves from the Sun and is broken down into atomic oxygen (O) and diatomic oxygen (O2).

  14. Stratosphere

  15. Mesosphere • Between 50 to 80 km • The upper limit the mesopause is the coldest portion of the atmosphere -90C • This is due to decreasing solar heating 

  16. Thermosphere • Temperatures are rise sharply in the mesosphere • Thermospherictemperatures increase with altitude due to absorption of highly energetic solar radiation. • Radiation causes the atmosphere particles in this layer to become electrically charged (the Ionosphere

  17. Atmospheric Function Criterion • The Ionosphere absorbs cosmic rays, gamma rays, X-rays and shorter ultra violet wavelengths, changing atoms to positively charged ions • Extends from 85 to 600 km

  18. Ionosphere and broadcast http://www.windows2universe.org/earth/Atmosphere/ionosphere.html

  19. Profile of the Atmosphere

  20. Aurora Borealis These two photos show the aurora borealis (Northern Lights) over Alaska in March 2001. The green color of this aurora tells us something about it. The green glow comes from oxygen atoms in Earth's upper atmosphere. Images courtesy of Jan Curtis.

  21. Ozonosphere • The portion of the stratosphere that contains t an increase level of Ozone. • Ozone is a highly reactive oxygen and absovs UV 100-300 nm and reradiates this energy in infrared radiation. • Today it is in situation of continues change • ClO+O3 --->Cl+2O2 • Cl+O3 --->Cl0+O2

  22. Chemical evidence of ozone damage by humans

  23. Vertical profile of the temperature

  24. Space Diving

  25. The big jump in HistoryFelix Baumgartner http://www.youtube.com/watch?v=FHtvDA0W34I

  26. Speed of the Jump

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