The phrase
"massive stars" refers to stars that are very big and have a lot of mass.
Full definition
Researchers have identified a young star, located almost 11,000 light - years away, which could help us understand how the most
massive stars in the universe are formed.
This has a high density of
more massive stars, and very different conditions to other clusters.
Most bursts likely happen after the cores of
massive stars run out of nuclear fuel and collapse, forming black holes.
Very large,
massive stars burn their fuel much faster than smaller stars and may only last a few hundred thousand years.
But this paper is «solid, because it presents all of the necessary data» showing that these are indeed viable candidates for the most
massive stars known to date.
In fact, the effect of
massive stars on the disks around infant stars — where planets arise — can be deadly.
An international team of scientists has found the fastest - rotating
massive star ever recorded.
Many astronomers had thought that magnetic fields would be too weak in young stars — particularly
young massive stars — to influence their development.
In total ten pillars have been observed, and in so doing a clear link was observed between the radiation emitted by
nearby massive stars and the features of the pillars themselves.
Until very recently, the resolution and sensitivity of observational instruments were not high enough for detailed investigations of molecular clouds in
which massive stars are forming.
Even though the player is eventually able to create
massive star systems, it's really the relaxed atmosphere and pleasant pacing that take the front seat to anything else that goes on.
«The bow shocks are new laboratories for
studying massive stars and answering questions about the fate and evolution of these stars,» he says.
One leading scenario for forming tightly orbiting black holes starts with a pair of
massive stars already orbiting each other.
They found seven belonging to
massive stars escaping their birth clusters, showing how some stars begin their solo journeys through space.
Black holes and neutron stars form when
massive stars stop shining and collapse in on themselves.
It began its life when a group of
particularly massive stars, producing strong stellar winds, created individual expanding bubbles of hot gas.
The brightest object in a nearby star cluster, thought for decades to be a single star, is actually two
massive stars in the process of merging.
At its core is a large cluster of stars known as R 136, in which some of the
most massive stars known are located.
«It's still important to consider other reasons why some
extremely massive stars won't collapse into black holes,» he says.
It changes with time because bright and
massive stars evolve faster than faint and lightweight ones.
In this process,
massive stars formed early in the life of a galaxy shine so brightly that the pressure of their radiation pushes lots of gas and dust out of the galaxy altogether.
As a result, formation
of massive stars is suppressed in zones of strong magnetic fields (contours).
Long gamma - ray bursts, which flash for up to 100 seconds or longer, are believed to occur when
massive stars explode as supernovae.
It is possible that the radiation and stellar winds
from massive stars actually help create denser spots within the pillars, which can then form stars.
Let's cut to the chase: The Last Jedi, the eighth episode of the increasingly
massive Star Wars chronicle, is wonderful.
Francis Boulva, College Jean - de-Brebeuf, Montreal, Quebec, Canada Cosmic Bubbles Improving Hi Shell Detection Around Massive Stars
It's just that larger, very
massive stars die in such a spectacular fashion: they flare up, and out, as supernovas, spewing 10 to 100 times the mass of our sun in all directions.
He said that scientists assume most stellar - remnant black holes — which result from the collapse of
massive stars at the end of their lives — will be about the same mass as our sun.
The nearest
massive star formation to Earth is happening 1500 light years away in the constellation of Orion, the Hunter.
Produced by supernovas, these extremely dense husks are left behind after
massive stars end their lives.
Because of their large masses and great ages, these clusters are thought to have produced a large number of stellar - mass black holes — created as
massive stars within them exploded and collapsed over the long lifetime of the cluster.
This discovery meant that scientists had been overestimating the star's abundance of heavy elements, which in turn meant they had been overestimating its mass — and thus underestimating its age, because
less massive stars evolve more slowly.
Phrases with «massive stars»