That's hard to say, since asteroids come in all sort of sizes.
By the way, it is more appropriate to talk about the mass of astronomical objects, than about their weight.
== == An ellipse. Like planets.
As much as a polar bear weighs
Our mass and our weight on Earth just so happens to be really close numbers here on Earth because we were created here. Mass= The space your body takes up or how much volume you take up. Weight=the amount of gravity pulling you down. So say we were to go to the moon. Your mass would be much more than your weight since there is hardly any gravity on the moon.
it depends if you mean one that was in the asteroid belt if so then its about 3AU away and if earth is about an AU away from the sun then i would say it takes around 2 to 5 earth years to make one full revolution.
About 1.27 seconds .
Weight 83.60 kilograms. Orbital Period 96.20 minutes.
The moon is much smaller than the Earth. As a result, the force of gravity on the moon is only about one sixth as strong as gravity on earth. If you were to weigh yourself on a scale here and then could take that same scale to the moon and weigh yourself, the weight read on the moon would be 1/6 your earth weight. So, if you weighed 100 lbs on earth, you would only weigh about 16lbs on the moon. Talk about losing weight fast!
Yes as a matter of fact they can hit the Moon. Take a look at the Moon through a telescope and you will see what I mean.
You just take your weight divided by 6. example (60 pounds on earth = 10 pounds on the moon)
Because Mercury is much heaveyer than the earth so it takes more time to rotatebecause of its weight
It doesn't make much sense to talk about the "weight" of a planet. Where would you weigh it on? To compare different planets, the "mass" is used instead. This is not quite the same as the weight. Take a look at the Wikipedia article on "Mass versus weight" for more details.
== == An ellipse. Like planets.
First some facts. The moon is:1/4 Earth's radius (r)1/50 Earth's volume1/80 Earth's mass (M)The formula for gravitational attraction (weight) is:F=GM1M2/r2In this equation:F is the force between the masses,G is the gravitational constant,M1 is the first mass (you),M2 is the second mass (the moon or the Earth), andr is the distance between the centers of the masses.Therefore Fmoon= Fearth /{(Mearth/Mmoon )(rmoon/rearth)2}Take the Earth weight and multiply it by 0.1655 .If that seems like too much trouble, then just take 1/6 of the Earth weight.
You can take the weight of anything on earth, multiply it by 0.359, and you'll havethe weight of the same object on Mars, in the same units you started with (pounds,tons, ounces, newtons, stone, etc.)That number comes from mashing together the differences in both the weight andradius of the earth and Mars; those are the physical characteristics that determinean object's weight on any planet.Similarly, you can take the earth-weight of any object in any unit of weight, multiplyit by 0.1633, and you'll have its weight on the moon.
you are pushing up your own weight.
The moon is 1/4 the size of Earth, so the moon's gravity is much less than the earth's gravity, 83.3% (or 5/6) less to be exact. So take your weight and multiply it by .167 and that is how much you would weigh on the moon.
weight is measured by how much gravity is pushing down on you. weight is different from mass because mass is how much room you take up. weight is how much something or someone weighs.