The numeric value of the apparent magnitude would increase, since bright objects have lower magnitude values than dim objects.To give some actual numbers as an example: the Sun has an apparent magnitude of about -27. It is much, much brighter than the moon, which at its brightest has an apparent magnitude of -13 or so.
Apparent magnitude is the brightness of an object as seen from Earth without any atmosphere.
The apparent magnitude of a star is a measure of its brightness.
The apparent magnitude of Vega is 0.03. The absolute magnitude is 0.58.
At its brightest its apparent magnitude is 13.65.
well it depens on what magnitude? For example is it visual, apparent, or absolute?
Antares Absolute and Apparent Magnitude Absolute Magnitude~ -5.2 Apparent Magnitude~ +0.60
it has an apparent magnitude of 2.1
The apparent magnitude of Neptune is 7.8
Vega has an apparent magnitude of 0.03.
The numeric value of the apparent magnitude would increase, since bright objects have lower magnitude values than dim objects.To give some actual numbers as an example: the Sun has an apparent magnitude of about -27. It is much, much brighter than the moon, which at its brightest has an apparent magnitude of -13 or so.
Apparent magnitude is the brightness of an object as seen from Earth without any atmosphere.
The two types are apparent magnitude, the magnitude of a star as it appears to us, and absolute magnitude, which is what a star's apparent magnitude would be at a standard distance of ten parsecs.
The apparent magnitude of the Cartwheel Galaxy is 15.2
The apparent magnitude of a star is a measure of its brightness.
The apparent magnitude is 2.4
Apparent magnitude: How bright something looks to us. Absolute magnitude: How bright something really is - expressed as the apparent magnitude it would have at a standard distance.