BETELGEUSE
Magnitude 0.5
Reddish orange M2 star
EARTH
ACHERNAR
Magnitude 0.5
Blue-white B6 star
140 ly 640 ly
October 2017^ DISCOVER^67
CLOCKWISE FROM TOP LEFT: NASA/ESA/P. CHALLIS AND R. KIRSHNER/(HARVARD-SMITHSONIAN CFA); NASA/GSFC/ASU; ROEN KELLY/DISCOVER; NAS
A/ESA/Z. LEVAY (STS
CI)
Major the Great Dog. This luminary
shines at magnitude –1.47. Then look
40° north-northeast for Wasat. It
glows at magnitude 3.53, which makes
it exactly five magnitudes — or 100
times — fainter than Sirius.
Finding how much brighter one
object is than another certainly is
useful, especially for those of us who
write about observing. But there are
times when you might want to add
magnitudes, like when you know the
brightnesses of both components in a
double star system and you want the
total magnitude, or when two planets
(or a planet and a star) are scheduled
for a close approach.
Fortunately, our readers don’t shy
away from a tiny bit of math. To add
magnitudes, use this formula:
mc = m 2 – 2.5log(10x + 1)
Where mc is the combined
magnitude and m 1 and m 2 are the
magnitudes of the objects, and
x = 0.4(m 2 – m 1 ).
TYPES OF MAGNITUDES
When we look at a star, we see its
apparent magnitude (usually just
called magnitude), or how bright it
appears to us. But that tells us nothing
about its real brightness. Our eyes or
telescopes can’t tell us how big the star
is, how hot it is, or how far away it is.
Astronomers must figure out these
attributes in other ways.
An absolute magnitude exists
whereby we can compare objects to
one another directly. The absolute
magnitude, also called the luminosity,
of a star is the brightness it would
appear from a distance of 10 parsecs
(32.6 light-years). This is a valuable
number because it tells astronomers
SUPERNOVA 1987A 3.0
Stars of different real brightnesses can appear to be the same
brightness in our sky, as with Achernar and Betelgeuse, which both
shine at magnitude 0.5. Achernar, the brightest star in Eridanus, lies
some 140 light-years away. Betelgeuse, the ruddy supergiant in Orion,
is nearly five times more distant and intrinsically much brighter.
Apparent Brightnesses
SUPERNOVA 1006 –7.5 THE FULL MOON –12.7