New Extreme Revoluted Dancers
Would you like to react to this message? Create an account in a few clicks or log in to continue.

This can be seen by the effects of atmospheric drag on satellites.

2 posters

Go down

This can be seen by the effects of atmospheric drag on satellites.  Empty This can be seen by the effects of atmospheric drag on satellites.

Post by lunamoonfang Sun Feb 20, 2011 2:08 pm

Pressure and thickness
Main article: Atmospheric pressure

The average atmospheric pressure at sea level is about 1 atmosphere (atm) = 101.3 kPa (kilopascals) = 14.7 psi (pounds per square inch) = 760 torr = 29.9 inches of mercury (symbol Hg). Total atmospheric mass is 5.1480×1018 kg (1.135×1019 lb),[10] about 2.5% less than would be inferred naively from the average sea level pressure and the Earth's area of 51007.2 megahectares, this defect having been displaced by the Earth's mountainous terrain. Atmospheric pressure is the total weight of the air above unit area at the point where the pressure is measured. Thus air pressure varies with location and time, because the amount of air above the Earth's surface varies.

If atmospheric density were to remain constant with height the atmosphere would terminate abruptly at 8.50 km (27,900 ft). Instead, density decreases with height, dropping by 50% at an altitude of about 5.6 km (18,000 ft). As a result the pressure decrease is approximately exponential with height, so that pressure decreases by a factor of two approximately every 5.6 km (18,000 ft) and by a factor of e = 2.718… approximately every 7.64 km (25,100 ft), the latter being the average scale height of Earth's atmosphere below 70 km (43 mi; 230,000 ft). However, because of changes in temperature, average molecular weight, and gravity throughout the atmospheric column, the dependence of atmospheric pressure on altitude is modeled by separate equations for each of the layers listed above. Even in the exosphere, the atmosphere is still present. This can be seen by the effects of atmospheric drag on satellites.

In summary, the equations of pressure by altitude in the above references can be used directly to estimate atmospheric thickness. However, the following published data are given for reference:[11]
_____________

Stevia Tabs
watch for men

lunamoonfang
Shuffler
Shuffler

Posts : 21
Join date : 2011-02-07

Back to top Go down

This can be seen by the effects of atmospheric drag on satellites.  Empty Re: This can be seen by the effects of atmospheric drag on satellites.

Post by XREDXR Mon Feb 21, 2011 1:21 pm

the dependence of atmospheric pressure on altitude is modeled by separate equations for each of the layers listed above. Even in the exosphere, the atmosphere is still present. This can be seen by the effects of atmospheric drag on satellites.



car rental
Vinyl Pinstripe

XREDXR
Hardstyler
Hardstyler

Posts : 121
Join date : 2010-10-11

Back to top Go down

This can be seen by the effects of atmospheric drag on satellites.  Empty Re: This can be seen by the effects of atmospheric drag on satellites.

Post by XREDXR Mon Feb 21, 2011 1:22 pm

the dependence of atmospheric pressure on altitude is modeled by separate equations for each of the layers listed above. Even in the exosphere, the atmosphere is still present. This can be seen by the effects of atmospheric drag on satellites.



car rental
Vinyl Pinstripe

XREDXR
Hardstyler
Hardstyler

Posts : 121
Join date : 2010-10-11

Back to top Go down

This can be seen by the effects of atmospheric drag on satellites.  Empty Re: This can be seen by the effects of atmospheric drag on satellites.

Post by Sponsored content


Sponsored content


Back to top Go down

Back to top

- Similar topics

 
Permissions in this forum:
You cannot reply to topics in this forum