If you are talking about most massive to least massive, here is the list:
R136a1 [1]265-320WR 101e150-160HD 269810150Peony Nebula Star150LBV 1806-20130-200HD 93129 A + B[2][3]A=120-127, B=80HD 93250118NGC 3603-A1A=116, B=89Pismis 24-1 A + B[4][5]A=100-120, B=100Arches cluster[6][7][8]Many stars, 100-130Pismis 24-17[5]100Hineliun100S Doradus100Eta Carinae90-100Cygnus OB2-1292WR20 a + bA=83, B=82The Pistol Star80-150Melnick 4280-100HD 9795080Sk-71 5180R 12670Companion to M33 X-770LH54-425 A + BA=62, B=37Var 83 in M3360-85Sher 25 in NGC 360360Zeta-1 Scorpii60Zeta Puppis59WR2255-74Plaskett A + BA=43, B=51AG Carinae50WR102c45-55IRS-8*44.5HD 5980 A + BA=40-62, B=30Epsilon Orionis40HD 14893740IRAS 05423-712040Rho Cassiopeiae40Theta1 Orionis C40Xi Persei40Companion to NGC300 X-138Cluster R136a12 stars, all 37-76Chi2 Orionis35-40Companion to IC10 X-135VY Canis Majoris30-40Gamma Velorum A30P Cygni30R 6630Zeta Orionis28IRS 1526VV Cephei25-40Alpha Camelopardalis25-306 Cassiopeiae25EZ Canis Majoris25KY Cygni25Mu Cephei25V509 Cassiopeiae25NGC 7538 S20-40S Monocerotis A18-30WR478-48
The sun
I don't think it's possible to have such a massive star, according to present theories. Still, a very massive star should become a black hole, ultimately.
Stars become Red Giants when the main sequence ends in a star which can be different periods of time depend on if it is a high-massive star or a low-massive star. :)
It varies, depending on the stage of the star's development.
A supernova occurs at the end of a massive star's life cycle.
its not a massive or a dwarf star
A massive collapsed star is a dead star.
A normal (but fairly massive) star.A normal (but fairly massive) star.A normal (but fairly massive) star.A normal (but fairly massive) star.
Supergiant star.
Within a binary star system, the most massive star is called the primary star, whereas the least massive star is called the secondary star. See related question.
It does not have to be in order, just correct colours/plants. Yellow, Black & Purple Star Blossom
The remains of a massive star pulled into a small volume by gravity?
The answer depends on the original mass of the star. If it was not too massive, it will shrink to a dwarf star. If it was sufficiently massive, it will explode as a nova. A really massive star, exploding as a supernova, will leave behind either a neutron star, a pulsar or a black hole.
That is the correct spelling of "massive" (very large and/or heavy).
Simply put, massive stars come from massive clouds called neblulae.
The difference between the death of a small star and a massive star is what the become afterwards. A small star will typically become a red dwarf while a large star will become a neutron star or a black hole.
No. A neutron star ts the remnant of a massive star that exploded.