1 / 29

WHAT MAKES OUR ATMOSPHERE DISTINCT FROM SPACE?

WHAT MAKES OUR ATMOSPHERE DISTINCT FROM SPACE?. 1. The affected medium of atmosphere. (atmospheric composition). 1. The affected medium of atmosphere. (atmospheric composition). Others. 1. The affected medium of atmosphere. (atmospheric composition). Others. WATER VAPOR DUST.

osmond
Télécharger la présentation

WHAT MAKES OUR ATMOSPHERE DISTINCT FROM SPACE?

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. WHAT MAKES OUR ATMOSPHERE DISTINCT FROM SPACE?

  2. 1. The affected medium of atmosphere. (atmospheric composition)

  3. 1. The affected medium of atmosphere. (atmospheric composition) Others

  4. 1. The affected medium of atmosphere. (atmospheric composition) Others WATER VAPOR DUST

  5. 2. “Density” of Molecules

  6. 2. “Density” of Molecules • Gravitational attraction Directly proportional to mass of two objects (Earth and gas molecules)

  7. 2. “Density” of Molecules • Gravitation attraction Directly proportional to mass of two objects (Earth and gas molecules) Inversely proportional to distance between the two objects (Earth’s “pull” declines with distance from Earth)

  8. Earth’s surface

  9. Atmosphere Earth’s surface

  10. Space Atmosphere Earth’s surface

  11. Space Top (400km+) Atmosphere Bottom Earth’s surface

  12. Space Top (400km+) Atmosphere Strong gravitational attraction Bottom Earth’s surface

  13. Space Top (400km+) Weaker gravitational attraction Atmosphere Strong gravitational attraction Bottom Earth’s surface

  14. Space Top (400km+) Weaker gravitational attraction Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface

  15. Space Top (400km+) Weaker gravitational attraction Molecules far apart Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface

  16. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface

  17. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Density of Gas

  18. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Density of Gas

  19. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Density of Gas

  20. Space Top (400km+) Weaker gravitational attraction Gravity inversely proportional to the square of the distance between objects. Molecules far apart Height Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Density of Gas

  21. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Atmosphere Molecules densely packed 10 km (8 miles) Strong gravitational attraction 50 % of all gases Bottom Earth’s surface Density of Gas

  22. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height “Weight of Molecules” Atmospheric Pressure Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Low High Atmospheric Pressure

  23. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height “Weight of Molecules” Atmospheric Pressure Atmosphere Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Low High Atmospheric Pressure

  24. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Height of Column X Density of Gases Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Low High Atmospheric Pressure

  25. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Height of Column X Density of Gases Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Low High Atmospheric Pressure

  26. Space Top (400km+) Weaker gravitational attraction Molecules far apart Height Height of Column X Density of Gases Molecules densely packed Strong gravitational attraction Bottom Earth’s surface Low High Atmospheric Pressure

  27. OXYGEN MASKS AND FLYING THE HUMP IN WORLD WAR 2.

  28. TORRICELLI’S BAROMETER

More Related