Greenhouse effect: Difference between revisions
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== greenhouse effect == | == greenhouse effect == | ||
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<div class="definition"><div class="short_definition">As used in the field of [[meteorology]], the term “greenhouse effect” refers to the heating exerted by the [[atmosphere]] on Earth’s surface because certain atmospheric constituents ([[clouds]], [[water vapor]], [[carbon dioxide]], etc.) absorb and emit infrared radiation. | |||
About half of the [[sunlight]] incident on Earth is transmitted through the atmosphere and absorbed at Earth’s surface. The sunlight-warmed surface emits [[radiation]] but, because Earth is colder than the sun, this radiation is primarily at [[infrared]] [[wavelengths]]. Most of this emitted infrared radiation is absorbed by trace gases and clouds in the overlying atmosphere. The atmosphere also emits radiation, primarily at infrared wavelengths, in all directions. Radiation emitted downward from the atmosphere adds to the warming of Earth’s surface by sunlight. This enhanced warming is termed the greenhouse effect. | |||
As a result of the greenhouse effect, Earth’s annual mean surface [[temperature]] of 15°C is 33°C higher than an equally reflective planet in Earth’s orbit with no atmosphere. | |||
The term “greenhouse effect“ is something of a misnomer in this context. It is used as 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. | |||
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''term edited 9 December 2015'' | |||
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Latest revision as of 12:52, 9 December 2015
greenhouse effect[edit | edit source]
About half of the sunlight incident on Earth is transmitted through the atmosphere and absorbed at Earth’s surface. The sunlight-warmed surface emits radiation but, because Earth is colder than the sun, this radiation is primarily at infrared wavelengths. Most of this emitted infrared radiation is absorbed by trace gases and clouds in the overlying atmosphere. The atmosphere also emits radiation, primarily at infrared wavelengths, in all directions. Radiation emitted downward from the atmosphere adds to the warming of Earth’s surface by sunlight. This enhanced warming is termed the greenhouse effect.
As a result of the greenhouse effect, Earth’s annual mean surface temperature of 15°C is 33°C higher than an equally reflective planet in Earth’s orbit with no atmosphere.
The term “greenhouse effect“ is something of a misnomer in this context. It is used as 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.
term edited 9 December 2015
