The measured total of all radiation at all wavelengths from a star is called a bolometric magnitude. The corrections required to reduce visual magnitudes to bolometric magnitudes are large for very cool stars and for very hot ones, but they are relatively small for stars such as the Sun. A determination of the true total luminosity of a star affords a measure of its actual energy output. When the energy radiated by a star is observed from Earth’s surface, only that portion to which the energy detector is sensitive and that can be transmitted through the atmosphere is recorded. Most of the energy of stars like the Sun is emitted in spectral regions that can be observed from Earth’s surface. On the other hand, a cool dwarf star with a surface temperature of 3,000 K has an energy maximum on a wavelength scale at 10000 angstroms (Å) in the far-infrared, and most of its energy cannot therefore be measured as visible light. (One angstrom equals 10−10 metre, or 0.1 nanometre.) Bright, cool stars can be observed at infrared wavelengths, however, with special instruments that measure the amount of heat radiated by the star. Corrections for the heavy absorption of the infrared waves by water and other molecules in Earth’s air must be made unless the measurements are made from above the atmosphere.
The hotter stars pose more difficult problems, since Earth’s atmosphere extinguishes all radiation at wavelengths shorter than 2900 Å. A star whose surface temperature is 20,000 K or higher radiates most of its energy in the inaccessible ultraviolet part of the electromagnetic spectrum. Measurements made with detectors flown in rockets or spacecraft extend the observable wavelength region down to 1000 Å or lower, though most radiation of distant stars is extinguished below 912 Å—a region in which absorption by neutral hydrogen atoms in intervening space becomes effective.
To compare the true luminosities of two stars, the appropriate bolometric corrections must first be added to each of their absolute magnitudes. The ratio of the luminosities can then be calculated.
Embryonic-stars-in-the-Eagle-Nebula-This-detail-of-aEmbryonic stars in the Eagle Nebula (M16, NCG 6611)[Credits : Photo AURA/STScI/NASA/JPL (NASA photo # STScI-PRC95-44b)]
Light-curve-of-Algol-an-eclipsing-variable-or-eclipsing-binaryLight curve of Algol (Beta Persei), an eclipsing variable, or eclipsing binary, star system. The …[Credits : Encyclopædia Britannica, Inc.]
Schematic-spectrum-luminosity-correlation-of-spiral-arm-stars-in-theSchematic spectrum–luminosity correlation (Hertzsprung–Russell diagram) of spiral-arm …[Credits : From Astrophysical Journal, reproduced by permission of the American Astronomical Society]
Colour-magnitude-diagram-for-an-old-globular-cluster-made-upColour-magnitude (Hertzsprung-Russell) diagram for an old globular cluster made up of Population II …[Credits : From Astrophysical Journal, reproduced by permission of the American Astronomical Society]
Eta-CarinaeEta Carinae.[Credits : Photo AURA/STScI/NASA/JPL (NASA photo # STScI-PRC96-23a)]
N81-and-new-stars-observed-by-the-Hubble-Space-TelescopeN81 and new stars, observed by the Hubble Space Telescope.[Credits : Photo AURA/STScI/NASA/JPL (NASA photo # STScI-PR98-25)]
Centre-of-the-Orion-Nebula-Astronomers-have-identified-some-700Centre of the Orion Nebula (M42).[Credits : Photo AURA/STScI/NASA/JPL (NASA photo # STScI-PRC95-45a)]
Stellar-parallaxFigure 3: Stellar parallax[Credits : Encyclopædia Britannica, Inc.]
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