Wiki User
∙ 12y agoThe mass of an object stays the same no matter where it is, as it still has the same amount of matter in it (the definition of mass is the amount of matter in an object). However, the weight of an object changes based on the gravitational pull of the celestial body it is on. The equation W = m * g where W is the weight, m is the mass of the object, and g is the gravitational acceleration of the celestial body (which changes from body to body) shows that an object's weight would change with the planet's gravitational acceleration. For example, the gravitational acceleration is 9.8 m/s^2 on Earth, and the gravitational acceleration on Jupiter is about 25m/s^2. So let's work out the equations with a 100 kg mass.
Earth:
W=mg
W=100kg*9.8m/s^2
W=98 kg/m/s^2
or 98 newtons
Jupiter:
W=mg
W=100kg*25m/s^2
W=250 kg/m/s^2
or 250 newtons
So, (250/98 = ~2.5) things weigh about 2.5 times more on Jupiter, but have the same mass.
Wiki User
∙ 12y agoYes, an object's mass would be the same on Jupiter as it is on Earth because an object's mass remains constant regardless of the gravitational pull of the planet. However, an object's weight would be different on Jupiter due to the stronger gravitational pull compared to Earth.
The mass of the object would remain the same regardless of its location, as it is an intrinsic property. However, the object's weight on Jupiter would be approximately 2.5 times its weight on Earth due to Jupiter's stronger gravity compared to Earth's gravity.
Moving an object to Jupiter would change its weight due to the stronger gravitational pull on Jupiter compared to Earth. The object would also experience higher levels of radiation due to Jupiter's powerful magnetic field. Additionally, the object would be subject to extreme atmospheric conditions and intense pressure at Jupiter's surface.
Jupiter has mass, not weight, as weight is the force of gravity acting on an object. Jupiter's mass is over 300 times that of Earth's, making it the most massive planet in our solar system.
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.
It would be heavier.
On a larger planet, such as Jupiter or Saturn.
Your mass is always the same.
Nothing happens to the weight of an object on the moon. It remains constant, at about 16% of what the same object weighs when it's on the Earth.
Your weight on Jupiter would be about 2.5 times your weight on Earth due to Jupiter's stronger gravity. This means that if you weigh 150 pounds on Earth, you would weigh around 375 pounds on Jupiter.
There are lots of ifs in this question and answer. If the 100 pound Earth object could rest on the outer surface of Jupiter the answer would be 250 pounds. But, Jupiter is a gas planet. That is, Jupiter is primarily made of gas and liquid. So, the object could not rest on the outer surface. There may be a solid surface near it's center but no one knows. Jupiter is 318 times as heavy as Earth so if Jupiter were solid and the size of Earth the object would weigh 318 times a much or 31,800 pounds. But, it is much larger than Earth so the outer surface is much farther from the center. The farther away the object is from the center the less the object will weigh.
It reduces to one sixth of it's earth weight.
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.
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.
Yes, an object's mass would be the same on Jupiter as it is on Earth because an object's mass remains constant regardless of the gravitational pull of the planet. However, an object's weight would be different on Jupiter due to the stronger gravitational pull compared to Earth.
If the object is on or near the Earth's surface, then most people call that force the object's "weight". Nobody ever gives any attention to the gravitational force that the object exerts on the Earth, probably because it happens to be exactly the same as the object's weight on the Earth. The neat thing about it, however, is that the same force is also the Earth's weight on the object.
The mass always stays the same, but because gravity is 38% of Earth, weight is only 38 pounds for every 100 pounds on earth.