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weight on jupiter=((mass of jupiter)*(Radius of earth)2/(mass of earth)*(Radius of jupiter)2)*weight on earth
A kilogram is a measure of mass, not of weight. A person whose mass is 285 pounds will weigh 1267 Newtons.
False. You will have the same mass on our moon, but weigh 1/6th as much as on the Earth.
9.375 lbs (on earth?) or mass is4,252.42847 grams
On Earth, each kilogram of a person's mass weighs 2.205 pounds. In other places, each kilogram of him has some different weight, depending on where he is.
The Moon is much smaller than the Earth, and its Mass is much less. Thus the pull of gravity is much less on the Moon.Therefore, you would weigh less on the Moon than on Earth, even though your Mass would be the same.
Weight is a function of gravity and mass. On Earth, the weight of a person is gauged by a scale, of the mass of that person and the amount of gravity pulling that person towards the centre of the Earth. On the Moon, with the same person and scales, that person would weight 1/6th they do on Earth, because the Moon has 1/6th the gravity of the Earth. So the Sun, has nothing pulling on it, so it can be said to weigh nothing. However, it does have mass and that is 1.9891×1030 kg.
If your mass is 48 kg, then you weigh 105.8 pounds on earth.
A kilogram is a measure of mass, not of weight. A person whose mass is 117 pounds will weigh 520 Newtons.
6.587412394e+21 US tons.
Mercury does not weigh anything more than earth
weight on jupiter=((mass of jupiter)*(Radius of earth)2/(mass of earth)*(Radius of jupiter)2)*weight on earth
That would depend on the planet's radius. The strength of gravity depends on both the mass of the object in question and the distance from its center of mass. If the planet in question had the same radius as Earth, then the person would weigh 200 lbs as gravity would be twice as strong. If the planet had the same density as Earth it would have 1.26 times Earth's radius and gravity would be 1.26 times as strong and the person would weigh 126 lbs. If the planet had about 1.41 times Earth's radius then that person's would weight 100 lbs.
No, your mass remains exactly the same. It is gravity that changes. The moon has about 1/6 the gravity of the surface of the earth, so you weigh about 1/6 as much. For example, a person who has a mass of 60 kg weighs about 132 pounds on earth, or about 22 pounds on the moon, but the mass remains 60 kg.
On Earth, multiply the mass in kilogram by 9.8. Answer is in Newton.
A single object doesn't have a gravitational attraction. The gravitational force between two objects is proportional to the product of both of their masses. So the force between the earth and any other object ... like a person ... depends on the mass of the person, just as much as it depends on the earth's mass. You can't tell the strength of the earth's attraction of an object until you know the object's mass. (In other words, you don't know how much a person on earth will weigh until you know something about the person.)
Depends on the mass of the asteroid