Yes, in a way.
If the radius of the Earth decreased but it's mass stayed the same, then the forces "pulling" on you (weight) would increase and you would be heavier.
If the radius of the Earth increased and the mass stayed the same, then you would be lighter.
You would actually weigh less on the top of Mount Everest than on the beach of Honolulu.
BTW: This is not a good idea for a weight loss program.
A body will have the least weight at the Earth's poles due to the effect of centrifugal force and the Earth's oblate spheroid shape. This is because the radius at the poles is slightly larger than at the equator, resulting in slightly weaker gravity.
Because the Earth has 80 times as much mass as the Moon has, and the greater radius of the Earth is not enough to cancel the effect of the mass difference.
On the new planet, Sara would weigh 400 lbs. This is because weight is proportional to the mass of the planet and inversely proportional to the square of the radius. Since the new planet is 5 times larger in radius, the weight would increase by a factor of 5^2 = 25.
Mercury's radius is 0.3825 that of Earth Jupiter's radius is 11.209 that of Earth So: (0.3825/11.209)*100 = 3.41 percent.
The force of gravity is a mutual attraction; the Earth pulls on you, and you pull on the Earth. Of course, the effect on you is more noticeable, given the difference in weight.
A body will have the least weight at the Earth's poles due to the effect of centrifugal force and the Earth's oblate spheroid shape. This is because the radius at the poles is slightly larger than at the equator, resulting in slightly weaker gravity.
weight on jupiter=((mass of jupiter)*(Radius of earth)2/(mass of earth)*(Radius of jupiter)2)*weight on earth
The weight of a body when raised above the Earth to a height equal to its radius will be 1/4 of its weight at the surface of the Earth. This is because the force of gravity decreases with distance from the center of the Earth, following an inverse-square law.
Venus has a radius of about 6,052 kilometers, which is about 95% of Earth's radius.
The weight of a body when raised above the Earth to a height equal to its radius will decrease. This is because the force of gravity acting on the body decreases with distance from the center of the Earth. The weight of the body can be calculated using the formula: ( W = mg ), where ( W ) is the weight, ( m ) is the mass of the body, and ( g ) is the acceleration due to gravity.
Only the object's mass.
10bls
Because the Earth has 80 times as much mass as the Moon has, and the greater radius of the Earth is not enough to cancel the effect of the mass difference.
The Etvs effect is the change in weight that occurs due to differences in gravity at different latitudes on Earth. Gravity is slightly weaker at the equator compared to the poles because of the Earth's rotation. This effect can impact the measurement of weight, as scales may show a slightly different reading depending on where they are located on Earth.
Venus' radius = 0.95 of Earth's Venus' mass = 0.815 of Earth's
As you move away from the center of the Earth, your weight will decrease. This is because weight is the force of gravity acting on an object, and gravity weakens with increasing distance from the center of the Earth.
On the new planet, Sara would weigh 400 lbs. This is because weight is proportional to the mass of the planet and inversely proportional to the square of the radius. Since the new planet is 5 times larger in radius, the weight would increase by a factor of 5^2 = 25.