A black hole.
the reason why a ballon left inside a car on a hot summer day become larger is because the air particles inside the ballon collise with the ballon walls more frequently. I guess......
The "corpses" of stars may be white dwarves, neutron stars, or black holes (and perhaps "quark stars", but this is still very speculative). In general, the least massive stars - which also tend to be smaller - will become white dwarves. These are much smaller than "active" stars, but much larger than neutron stars or black holes. The more massive the star, the SMALLER will the white dwarf be - due to the increased gravity. Our Sun has a diameter of 1.4 million kilometers; other stars can be several times smaller, or larger - but a white dwarf only has a diameter of a few thousand kilometers. More massive stars become neutron stars, which have a diameter of 20-30 km - and an immense density, similar to that of an atomic nucleus. The most massive stars end up as black holes. Here, the only "diameter" that can be observed from the outside is that of its event horizon, which is directly proportional to the black hole's mass. A black hole the mass of the Sun would have a Schwarzschild radius (the radius of its event horizon) of about 3 km; therefore its "diameter" would be about 6 km. A black hole a billion times the mass of the Sun would have a Schwarzschild radius of 3 billion kilometers.
Yes. The more massive the star, the faster if develops - and the faster it grows old and dies. A very massive star will die in a supernova explosion, which may result in a neutron star or a black hole.
Satellite galaxies are typically small galaxies orbiting a larger galaxy. In our case, the Large and Small Magellanic Clouds are dwarf galaxies just beyond our Milky Way, but their velocity is high enough they are probably not satellite galaxies. Our sister galaxy, Andromeda, is orbited by about 14 dwarf galaxies.
Occasionally they enter the realm of the inner solar system and become visible .five kilometers is a typical size -- but some are much larger.
Hundreds have a larger place value.
The sun is hundreds of thousands of times more massive than Earth is. Therefore it has much stronger gravity and a much larger influence on Earth than Earth has on it.
61 hundred = 6,100 therefore it is the larger number.
It will implode and depending on its size it will become a white dwarf, go nova, supernova. Extremely larger will form a black hole. .
They dont become larger they become farther apart from other galaxies
They become larger and tender when you have a disease or infection
Such an object makes a larger dent in the fabric of space-time than an object with little mass. (It has a greater gravitational attraction than less massive objects)A greater force is required to accelerate such an object than a less massive object
theoretically, you can get a moon that is a gas giant that is in orbit around an even larger gas giant planet (like something smaller then Uranus orbiting something 3x larger then Jupiter which would probably be orbiting a massive star). However there are no known cases of this anywhere in the galaxy.
Several hundreds of millions of times larger in volume, if not even larger.
larger and larger
The Earth is not only larger but much more massive than the Moon is.
Just like hundreds are greater than tens, hundreds of thousands is larger than tens of thousands.