Stefan-boltzmann law: Difference between revisions
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<div class="definition"><div class="short_definition">One of the [[radiation laws]], which states that the amount of [[energy]] radiated per unit time from a unit surface area of an ideal [[blackbody]] is proportional to the fourth power of the [[absolute]] temperature of the blackbody.</div><br/> <div class="paragraph">The law is written <div class="display-formula"><blockquote>[[File:ams2001glos-Se64.gif|link=|center|ams2001glos-Se64]]</blockquote></div> where ''E'' is the [[emittance]] of the blackbody, σ the [[Stefan–Boltzmann constant]], and ''T'' the absolute temperature of the blackbody. This law was established experimentally by Stefan and was given theoretical support by thermodynamic reasoning due to Boltzmann. This law may be deduced by integrating [[Planck's law]] over the entire [[frequency]] spectrum.</div><br/> </div> | <div class="definition"><div class="short_definition">One of the [[radiation laws]], which states that the amount of [[energy]] radiated per unit time from a unit surface area of an ideal [[blackbody]] is proportional to the fourth power of the [[absolute]] temperature of the blackbody.</div><br/> <div class="paragraph">The law is written <div class="display-formula"><blockquote>[[File:ams2001glos-Se64.gif|link=|center|ams2001glos-Se64]]</blockquote></div> where ''E'' is the [[emittance]] of the blackbody, σ the [[Stefan–Boltzmann constant]], and ''T'' the absolute temperature of the blackbody. This law was established experimentally by Stefan and was given theoretical support by thermodynamic reasoning due to Boltzmann. This law may be deduced by integrating [[Planck's radiation law|Planck's law]] over the entire [[frequency]] spectrum.</div><br/> </div> | ||
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Latest revision as of 16:59, 25 April 2012
Stefan–Boltzmann law[edit | edit source]
One of the radiation laws, which states that the amount of energy radiated per unit time from a unit surface area of an ideal blackbody is proportional to the fourth power of the absolute temperature of the blackbody.
The law is written where E is the emittance of the blackbody, σ the Stefan–Boltzmann constant, and T the absolute temperature of the blackbody. This law was established experimentally by Stefan and was given theoretical support by thermodynamic reasoning due to Boltzmann. This law may be deduced by integrating Planck's law over the entire frequency spectrum.
