Greenhouse effect: Difference between revisions
From Glossary of Meteorology
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<div class="definition"><div class="short_definition">The heating effect exerted by the [[atmosphere]] upon the earth because certain [[trace gases]] in the atmosphere ([[water vapor]], [[carbon dioxide]], etc.) absorb and reemit [[infrared radiation]].</div><br/> <div class="paragraph">Most of the [[sunlight]] incident on the earth is transmitted through the atmosphere and absorbed at the earth's surface. The surface tries to maintain [[energy balance]] in part by emitting its own [[radiation]], which is primarily at the [[infrared]] wavelengths characteristic of the earth's [[temperature]]. Most of the [[heat]] radiated by the surface is absorbed by trace gases in the overlying atmosphere and reemitted in all directions. The component that is radiated downward warms the earth's surface more than would occur if only the direct sunlight were absorbed. The magnitude of this enhanced warming is the greenhouse effect. Earth's annual mean surface temperature of 15& | <div class="definition"><div class="short_definition">The heating effect exerted by the [[atmosphere]] upon the earth because certain [[trace gases]] in the atmosphere ([[water vapor]], [[carbon dioxide]], etc.) absorb and reemit [[infrared radiation]].</div><br/> <div class="paragraph">Most of the [[sunlight]] incident on the earth is transmitted through the atmosphere and absorbed at the earth's surface. The surface tries to maintain [[energy balance]] in part by emitting its own [[radiation]], which is primarily at the [[infrared]] wavelengths characteristic of the earth's [[temperature]]. Most of the [[heat]] radiated by the surface is absorbed by trace gases in the overlying atmosphere and reemitted in all directions. The component that is radiated downward warms the earth's surface more than would occur if only the direct sunlight were absorbed. The magnitude of this enhanced warming is the greenhouse effect. Earth's annual mean surface temperature of 15°C is 33°C higher as a result of the greenhouse effect than the [[mean temperature]] resulting from [[radiative equilibrium]] of a [[blackbody]] at the earth's mean distance from the sun. The term "greenhouse effect" is something of a misnomer. It is an analogy to the trapping of heat by the glass panes of a greenhouse, which let sunlight in. In the atmosphere, however, heat is trapped radiatively, while in an actual greenhouse, heat is mechanically prevented from escaping (via [[convection]]) by the glass enclosure.</div><br/> </div> | ||
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Revision as of 14:21, 20 February 2012
greenhouse effect[edit | edit source]
The heating effect exerted by the atmosphere upon the earth because certain trace gases in the atmosphere (water vapor, carbon dioxide, etc.) absorb and reemit infrared radiation.
Most of the sunlight incident on the earth is transmitted through the atmosphere and absorbed at the earth's surface. The surface tries to maintain energy balance in part by emitting its own radiation, which is primarily at the infrared wavelengths characteristic of the earth's temperature. Most of the heat radiated by the surface is absorbed by trace gases in the overlying atmosphere and reemitted in all directions. The component that is radiated downward warms the earth's surface more than would occur if only the direct sunlight were absorbed. The magnitude of this enhanced warming is the greenhouse effect. Earth's annual mean surface temperature of 15°C is 33°C higher as a result of the greenhouse effect than the mean temperature resulting from radiative equilibrium of a blackbody at the earth's mean distance from the sun. The term "greenhouse effect" is something of a misnomer. It is an analogy to the trapping of heat by the glass panes of a greenhouse, which let sunlight in. In the atmosphere, however, heat is trapped radiatively, while in an actual greenhouse, heat is mechanically prevented from escaping (via convection) by the glass enclosure.
