Chem 1200
Greenhouse Gases II
The Solar Constant is the amount of energy that falls on a planet, on a plane perpendicular to the rays of the sun. This constant is a function of the distance of the planet from the sun. Since a planet cannot have all of its surface perpendicular to the sun, the average Solar Constant for any planet is actually smaller. For Earth, it is 340 W m-2 (Watt is a unit of power = Joules /second, and the Solar Constant is expressed in terms of power per unit surface area).
Albedo is the percentage of the sunlight that is reflected from the planet - this is dependent on several factors such as cloud cover, color of the planet surface, atmospheric dust, etc. Venus has a very high albedo because of its cloud coverage, which blocks sunlight from reaching the planet's surface.
The Radiative temperature is derived by taking into account the Solar Constant and the Albedo - which gives the amount of solar energy that is absorbed by the planet's surface. This makes the assumption that when materials absorb light, they re-emit some of this energy as heat. Because Venus' cloud coverage reduces the amount of sun's radiation reaching its surface, its predicted surface temperature is colder than that of Earth eventhough Venus lies closer to the sun.
The last column, Surface temperature, demonstrates vividly the Greenhouse Effect. The difference between the Radiative temperature and the actual Surface temperature is the consequence of the Greenhouse Effect.
Venus is HOT! Earth is livable! Mars is COLD!
Venus is 92 atm, Earth is 1 atm, Mars is 0.006 atm
Here's a list that will explain exactly what is going on here, by breaking down the categories (the
following percent signs are relative to the original radiation):
100% Incoming solar radiation
6% reflected by atmosphere
20% reflected by clouds
4% reflected by earth's surface
70% absorbed by planet (atmosphere and lithosphere combined)
70% Absorbed by planet (expanding the last category)
16% absorbed by atmosphere
3% absorbed by clouds
51% absorbed by land and oceans
51% Absorbed by surface
23% lost through evaporation
7% lost through direct heating of air
21% of initial radiation to be re-emitted as blackbody
radiation (mostly in infrared)
Simulations are from http://www.ems.psu.edu/~bannon/moledyn.html
Nitrogen
Oxygen
Molecular vibrations
Water
Carbon dioxide
Ozone
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