The answer is 562.178 lbs (approx.). Kilogram is the SI unit of mass and pound is an imperial unit of mass. To convert from kg to pound, multiply the kg unit by 2.20462.
A 15 kg object has a mass of 15 kilograms wherever it is, on Earth, on Jupiter, on the Sun or in the "weightlessness" of deep space.,
10 kilograms. Mass does not change with where on object is.
1 kg on Earth is 2.364 kg on Jupiter.
You don't weigh it, you compare it with standard mass units.
Your mass never changes. Only your weight. Gravity does not affect mass.
Well, first you would have to find the object's mass and weight. Since the gravitational force on Jupiter is approximately 2.3 times the gravitational force, you would have to multiply the mass times 2.3 and the weight times 2.3.
Jupiter is estimated to have a mass in kilograms of 1.8986×10 to the 27th power, or 317.8 times the mass of the Earth. It is not appropriate to ascribe a weight to Jupiter because weight depends on the acceleration due to gravity that an object experiences from another object at a point were it cannot follow that accelerative force. Since Jupiter is in orbit around the sun it is best described as weightless, just as a person in a capsule orbiting the earth is weightless.
Earth would be destroy due to the gravity force of that planet.
98g/s2
That would depend on the volume (density) of the 10kg object.
2000k
Both the 10kg stack of books and the 10kg piece of Styrofoam weigh the same amount, 10kg, because weight is a measure of the force due to gravity acting on an object's mass.
10 kilograms is the mass. To calculate the weight (in newtons), multiply the mass by 9.8.
Your mass is always the same.
Find what the mass here on earth is then multiply it by three
If it weighs 98 newtons on Earth, then we know that its mass is about 10kg. If that figure is its weight somewhere else, then its mass is something else.
You don't weigh it, you compare it with standard mass units.
jupiter
No. Mass is the measure of how much matter is in an object, while weight is how that mass is influenced by gravity. For example, if you were to move an object from earth to Jupiter, its mass would remain the same, but its weight would increase because Jupiter is larger and would pull on it more.