| 1. | The phenomenon is distinct from that of black body radiation.
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| 2. | Does this mean I have to use laws of Black body radiation?
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| 3. | Black body radiation emitted by a human has a peak wavelength of 9343 nm.
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| 4. | The sensors work on the basis of a theory called " black body radiation ".
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| 5. | Which is just the spectral energy density for Planck's law of black body radiation.
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| 6. | The gas becomes incandescent and emits a flash of intense visible and ultraviolet black body radiation.
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| 7. | Is it due to different temperatures ( ie . black body radiation ) or different chemical reactions?
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| 8. | The last papers of Gershun were devoted to black body radiation spectrum density and rough surface light scattering.
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| 9. | Other smaller energy losses include black body radiation directly from the hot gasses and chemical reactions between ionized gasses.
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| 10. | He derived this law from the measurements of the French physicists Planck's law of black body radiation:
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