The asteroid belt [See Link] is the region of the Solar System located roughly between the orbits of the planets Mars and Jupiter.
Contrary to popular belief (helped by Hollywood and computer game manufacturers), the asteroid belt is mostly empty. The asteroids are spread over such a large area that it would be highly improbable to reach an asteroid without careful aiming.
The asteroid belt includes the dwarf planet Ceres [See Link].
It's impossible to give a precise distance, as the belt starts around the orbit of Mars [See Link] and continues up to Jupiter's. However the centre of the belt is approximately 2.7 AU (404 million km (251 million miles)) from the Sun.
The asteroid belt [See Link] is the region of the Solar System located roughly between the orbits of the planets Mars and Jupiter.
Contrary to popular belief (helped by Hollywood and computer game manufacturers), the asteroid belt is mostly empty. The asteroids are spread over such a large area that it would be highly improbable to reach an asteroid without careful aiming.
The asteroid belt includes the dwarf planet Ceres [See Link].
It's impossible to give a precise distance, as the belt starts around the orbit of Mars [See Link] and continues up to Jupiter's. However the centre of the belt is approximately 2.7 AU (404 million km (251 million miles)) from the Sun.
The temperature of the asteroid belt varies. It can range from something on the order of 200 K (−73 °C) near the inner edge (about 2.2 AU) down to 165 K (−108 °C) near the outer edge (about 3.2 AU. Links can be found below for more information.
Asteroids closer to the Sun will be hotter, further away from the Sun they will be colder. There should also be differences between the day and the night side. Having no atmosphere, its average temperature should be quite a bit colder than that of a planet (that is, one with an atmosphere) at the same distance from the Sun.
There are millions of asteroids, each in its own orbit. (Although they do collide, sometimes.) The majority of the asteroids are in the "asteroid belt", a broad area between the orbits of Mars and Jupiter. But there are many asteroids outside that range, including some that sometimes come fairly close to the Earth.
Just picking a random one: 4,650,000 miles.
Asteroids closer to the Sun will be hotter, further away from the Sun they will be colder. There should also be differences between the day and the night side. Having no atmosphere, its average temperature should be quite a bit colder than that of a planet (that is, one with an atmosphere) at the same distance from the Sun.
Asteroids closer to the Sun will be hotter, further away from the Sun they will be colder. There should also be differences between the day and the night side. Having no atmosphere, its average temperature should be quite a bit colder than that of a planet (that is, one with an atmosphere) at the same distance from the Sun.
Asteroids closer to the Sun will be hotter, further away from the Sun they will be colder. There should also be differences between the day and the night side. Having no atmosphere, its average temperature should be quite a bit colder than that of a planet (that is, one with an atmosphere) at the same distance from the Sun.
Asteroids closer to the Sun will be hotter, further away from the Sun they will be colder. There should also be differences between the day and the night side. Having no atmosphere, its average temperature should be quite a bit colder than that of a planet (that is, one with an atmosphere) at the same distance from the Sun.
The temperature of an asteroid would be dependent on where it is in its orbit, but generally "pretty darned cold!" would be an accurate description. The majority of the asteroids appear to be in the "asteroid belt" between Mars and Jupiter, which is pretty far out from the Sun; about 3AU, or 3 times farther from the Sun than the Earth is.
There are "Apollo" asteroids, which orbit closer to the Sun than the Earth does; those may be somewhat warmer. But no asteroid is massive enough to keep an atmosphere, so all of the heat from sunlight would be radiated off into space pretty quickly. None are big enough to have a hot core like the Earth does.
"Near earth" asteroids have an orbit that will bring them closer to the sun than most asteroids. When closest, the sunlit side will get quite hot, the side away from the sun will still be as cold as the surrounding vacuum. Main belt asteroids will have a side facing the sun at any given moment that will be warmer than the side away from the sun, but either way, the temperature will be very, very cold.
Every asteroid is different, of course, because of the differing sizes and orbits and compositions. But the "average" asteroid in the asteroid belt is probably in the -150C range.
its clear what it is.....the asteroid belt doesn't exist you wear it on your pants silly children!! it matches with Saturn's rings and the asteroid purse and heels.
The average orbital speed of the asteroid Vesta is 19.34 km/s.
yes but at a unknown speed
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I assume you mean "asteroid". The speed of an asteroid is comparable to that of a planet. For example, an asteroid with an orbit similar to Earth's orbit would have a speed similar to Earth, which moves around the Sun at a rate of 30 km/second. An asteroid that is much further out will be slower; one that gets closer to the Sun will move faster, at least during part of its orbit.You can calculate the speed of an asteroid from Earth's speed, and the relative distances to the Sun, using Kepler's Third Law.
It is estimated that the Yukatan asteroid was travelling at a speed of 12.4 miles per second.
The average orbital speed of the asteroid Vesta is 19.34 km/s.
The average orbital speed is 17.882 km/s of asteroid in space
yes but at a unknown speed
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A asteroid travels at the speed of light.
I assume you mean "asteroid". The speed of an asteroid is comparable to that of a planet. For example, an asteroid with an orbit similar to Earth's orbit would have a speed similar to Earth, which moves around the Sun at a rate of 30 km/second. An asteroid that is much further out will be slower; one that gets closer to the Sun will move faster, at least during part of its orbit.You can calculate the speed of an asteroid from Earth's speed, and the relative distances to the Sun, using Kepler's Third Law.
for fastest speed of actual forward movement i believe its an asteroid
It is estimated that the Yukatan asteroid was travelling at a speed of 12.4 miles per second.
The average asteroid is approximately 583 miles long in width. The biggest, longest, and first known asteroid was discovered in 1801.
Depends entirely on the impacting speed and the size of the asteroid. Generally an asteroid impact is not going to bode well for life on Earth
comet
The asteroid movement is like comets, as they c0ome closer to the sun, the speed of their revolution increases and the gravitational pull also adds up.