Stefan-Boltzmann's Law - FLIR Exx series User Manual
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30 – Theory of thermography
10327203;a4
Figure 30.6 Planckian curves plotted on semi-log scales from 100 K to 1000 K. The dotted line represents
the locus of maximum radiant emittance at each temperature as described by Wien's displacement law.
2
1: Spectral radiant emittance (W/cm
(μm)); 2: Wavelength (μm).
30.3.3
Stefan-Boltzmann's law
By integrating Planck's formula from λ = 0 to λ = ∞, we obtain the total radiant
emittance (W
) of a blackbody:
b
This is the Stefan-Boltzmann formula (after Josef Stefan, 1835–1893, and Ludwig
Boltzmann, 1844–1906), which states that the total emissive power of a blackbody is
proportional to the fourth power of its absolute temperature. Graphically, W
represents
b
the area below the Planck curve for a particular temperature. It can be shown that the
radiant emittance in the interval λ = 0 to λ
is only 25% of the total, which represents
max
about the amount of the sun's radiation which lies inside the visible light spectrum.
164
Publ. No. T559597 Rev. a500 – ENGLISH (EN) – December 10, 2010
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