Your mass would not change... it's a constant. However, your weight would increase, because the force of gravity (directly related to the mass of the planet) would increase substantially. (Gravitational force is directly proportional to the mass of the two objects in the field, and inversely proportional to the square of the distance between them). You can thank Newton for that equation.
Your mass increases on Jupiter because of Jupiter's greater (stronger) gravitational pull.
Your weight would increase on Jupiter due to its stronger gravitational pull compared to Earth. However, your mass would remain the same regardless of your location in the universe, as mass is a measure of the amount of matter in an object and does not change with location.
Your mass would be greatest on the planet Jupiter. Jupiter is the largest planet in our solar system with a strong gravitational pull, which would make your weight the heaviest there compared to other planets.
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.
Your weight on Jupiter would be approximately 253 pounds. This is because the gravity on Jupiter is about 2.64 times stronger than that of Earth, so your weight would increase accordingly.
Your mass increases on Jupiter because of Jupiter's greater (stronger) gravitational pull.
The weight of an object remains the same regardless of its location, but its mass would be different due to the different gravitational forces on Jupiter and the Moon. On Jupiter, the mass would be about 7.49 times greater than on Earth, and on the Moon, it would be about 1/6th of the mass on Earth.
Your weight would increase on Jupiter due to its stronger gravitational pull compared to Earth. However, your mass would remain the same regardless of your location in the universe, as mass is a measure of the amount of matter in an object and does not change with location.
If I were to move to Jupiter, my mass would remain the same regardless of the location I am in the universe. Mass is a measure of the amount of matter in an object and is independent of the gravitational field strength. However, my weight would change because weight depends on the gravitational pull, which is much stronger on Jupiter compared to Earth.
weight on jupiter=((mass of jupiter)*(Radius of earth)2/(mass of earth)*(Radius of jupiter)2)*weight on earth
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.
Your mass would be greatest on the planet Jupiter. Jupiter is the largest planet in our solar system with a strong gravitational pull, which would make your weight the heaviest there compared to other planets.
Your mass is the same regardless of where you are. Your weight would be greatest on Jupiter.
Your mass is the same regardless of where you are. Your weight would be greatest on Jupiter.
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.
The mass stays the same, only the weight changes. Weight is a function of gravity so: W=mg where W=weight, m=mass and g=gravitational acceleration. An average giraffe weighs on Earth about 2,200lbs. On the Moon is would weigh about 365.2lbs, whereas on Jupiter is would weigh about 5200.8lbs.
If you weighed 42kg on Earth, you would weigh 99.2kg on Jupiter. EDIT: Actually, this is not correct, since kg is a unit of mass. Mass would be the same in both locations. 42kg would be 42kg. The multiplier for weight though, is about 2.35. If you had a mass of 42kg, you would *weigh* about 412 N. Your WEIGHT on Jupiter would then be about 967 N.