It isn't different. The sun is hotter and brighter than the average main sequence stars, but it is within what is considered normal. There is nothing extraordinary about the sun itself.
Beacuse they are dimmer, but they're also bigger than the main sequence stars.
yes
above the main-sequence stars
One of two groups of stars on the Hertzsprung -Russell diagram that have a different set of properties than the main sequence stars; bright, low-temperature giant stars that are enormously bright for their temperature.
The HR diagram does not reference stars on their way to the main sequence, only during or after.
A star on "main sequence" is a period in a stars evolution.A white dwarf is a stellar remainA supergiant star is the size of a very big star.So they are completely different and not even related.
dwarf stars,giant stars,main sequence stars
Beacuse they are dimmer, but they're also bigger than the main sequence stars.
The sun is the only star we know of whose planetary system definitely includes one with life on it. Other than that, and the fact that it's much closer to us, there is absolutely nothing out of the oridinary about our sun, compared to billions of other main-sequence stars.
"main sequence" is the tern.
It can have many different sizes. Only the largest giants are no longer main sequence stars.
sun doesn't preform binary systems.binary systems: are when one or more stars rotates around the sun. which our most common stars have done, except the sun.
There are billions of stars that are not on the main sequence.
Of the stars you can see from Earth, 90% are in the main sequence.
The smallest stars in the main sequence are the stars with cooler surface temperatures.
The main sequence is a map of star brightness against their temperature. Stars that lie on the main sequence in the top left are the high mass stars. Cooler, smaller stars lie near the line at the lower right.
gas, and other vibrate radiations.