This is a fairly challenging question to address, since there are so many different types of stars in this universe, and because weight and mass do not mean the same thing.
In our own galaxy, the Milky Way, roughly 80% of the stars are red dwarfs. Since red dwarfs typically have about 1/5 the mass of our sun, and since the sun's mass is roughly 2,000,000,000,000,000,000,000,000,000,000 (2 E+30) kilograms, then about 80% of stars (red dwarfs) in our galaxy have roughly 416,000,000,000,000,032,000,000,000,000 (4.16 E+29) kilograms of mass, which works out to about 917,123,010,689,090,745,280,000,000,000 (9.17 E+29) pounds.
Again, mass and weight are not really the same thing. Mass is the measure of the amount of matter that makes up an object, and weight is the measure of gravitational acceleration that mass undergoes, in a given inertial frame of reference - for example, close to the earth's surface.
This will probably confuse things, but for your question to really make any sense, it needs to be recast as: "What is the weight of a star on the surface of earth?" Meaning, if it were possible to put a typical star on a scale on the surface of the earth, what would that star weigh?
Now, among galaxies in the observable universe, our Milky Way is fairly typical (it is a "barred spiral"), so it is probably safe to say that roughly 80% of the stars in most galaxies throughout the universe are red dwarfs.
So, to answer your question, in an extremely broad sense, the weight of a star *on earth* would be about 416,000,000,000,000,032,000,000,000,000 kilograms, or about 917,123,010,689,090,745,280,000,000,000 pounds.
Far as I know
Lightest star AB Doradus C had mass of 1.77 x 1029 kg
Heaviest star Eta Carinae had mass of 3 x 1032 kg
So I believe it is safe to say an average star having mass of
150,000,000,000,000,000,000,000,000,000,000 kg
I Don't Know How Much it weighs
you probably can't weigh one
a star fish weight is 35.23
Light elements are made in light weight stars via stellar nucleosynthesis. Elements as heavy as iron form in the cores of massive stars. Anything heavier than iron requires a supernova--the collapse and explosion of a super massive star.
Without heavy elements, the clouds could not reach as low a temperature as today and had to be more massive to collapse.
White dwarfs are the cores of dead stars that have been crushed into an extremely dense state by their own gravity.
The data you could use is how heavy the star is because the heaviest stars end their cycles differently. Hope this helps.
stars stars stars stars
stars
Neutron stars are so heavy because they are the compact core of a star that is 8 time the mass of our Sun. The most massive neutron stars possible are 3 times the mass of our Sun.
Heavy elements were formed in stars, and blown out into space in supernova explosions.
Heavy Gear The Animated Series - 2001 All Stars is rated/received certificates of: USA:TV-Y7
yes
Heavy stars usaly go
No. Emo has nothing to do with Heavy Metal... it was originally a spinoff of Hardcore Punk.
Such elements are formed within stars. The heavy elements which are currently here on Earth were formed in stars some time ago, and then they were blown into space in supernova explosions.
If there are lots of heavy clouds, they will block the faint light from the stars so taht you don't see them.
Generally, the more massive a star is, the more luminous they are. The most luminous stars appear blue.
Heavy stars go supernova at the end of their lives.
Light elements are made in light weight stars via stellar nucleosynthesis. Elements as heavy as iron form in the cores of massive stars. Anything heavier than iron requires a supernova--the collapse and explosion of a super massive star.