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What’s apparent magnitude?

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Apparent magnitude is a logarithmic scale used in astronomy to measure the brightness of celestial objects as seen from Earth. It depends on the object’s size, distance, and frequency of light emitted. Absolute magnitude is a measure of an object’s actual brightness, taking into account its distance. The scale is historical, with lower values indicating brighter objects. The Hubble Space Telescope can see objects down to a magnitude of 31.5. Examples of apparent magnitude include Venus (-4.1), Sirius (-1.47), Pluto (13.65), and the sun (-26.7).

The apparent size of an object in outer space is how bright it appears on Earth, taking into account the effect of the Earth’s atmosphere. A brighter object has a lower magnitude than a dimmer one. The apparent magnitude scale is logarithmic, so a star of magnitude one would be about two and a half times brighter than one of absolute magnitude two. Apparent magnitude is a commonly used measure in astronomy, as it allows direct comparison of the relative brightness of two objects.

Visual apparent magnitude uses a scale where the lower the value the brighter the object is for historical reasons. When stars were first classified, a star with a magnitude of one was considered to be in the brightest category. A category six star was the faintest a human eye could see. Since then, the use of telescopes has made it possible to see even more distant and fainter stars. For example, the Hubble Space Telescope can see objects down to a magnitude of 31.5.

The apparent brightness of a star depends on its size and distance from the Earth. This is because the power emitted by a star follows an inverse square law, which means that if the distance is doubled the power decreases by four. For this reason, apparent magnitude can provide only limited information about an object unless other variables are known.

While apparent magnitude is the brightness of a celestial object as seen from Earth, absolute magnitude is a measure of an object’s actual brightness. In many situations, absolute magnitude is more useful than apparent magnitude because it takes into account the distance to an object. The apparent brightness of a star or other object must be known before the absolute magnitude can be calculated.

An important consideration when measuring magnitude is the frequency of the light emitted. All light-measuring instruments have a range of sensitivity depending on the light being measured, so the apparent brightness in one waveband can be different from that in another. To account for this, any apparent magnitude measurement must include details of how it was obtained.

Some examples include the maximum luminosity of Venus, which is -4.1; Sirius, the brightest star in the sky, which has a value of -1.47; and Pluto’s maximum luminosity, which is 13.65. The sun has an observed magnitude of -26.7, making it the brightest object in the sky. By comparison, the full moon has only a magnitude of -12.6.

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