Yes your weight would be greater.
On all the planets with a greater mass than the earth an object would weigh more. All other things being equal.These are the planets Jupiter, Saturn, Uranus and Neptune in our solar system.
no. Your weight would be 1/6 what it is on earth because the moon has 1/6 the gravity
On Titan you would weight about 18% of your weight on Earth.
Your mass is an invariant property of the matter from which you are made, it would therefore remain the same on the Moon or anywhere else in the Universe. However, your weight would be less on the Moon than on Earth because the gravity field of the Moon is less than that of Earth and your weight is the result of how hard gravity attracts your mass.
A rock's mass is not affected by the moon. It's weight is a function of mass and gravity. So, the same rock would weigh more on Earth than on the Moon, as the Earth's gravity is greater. In order to effectively confuse the issue, I should point out that gravity is also a function of mass...
It would be greater.
It would be greater.
It would be greater.
You'r weight would be greater because the more mass the greater the gravitational pull which is what causes weight in the first place
On a larger planet, such as Jupiter or Saturn.
If you're the same distance from the center of the planet but its mass is greater than earth's mass, then the mutual gravitational force between you and that planet is greater than on earth, and you'll "weigh" more than you do here.
earth, because earth has a greater gravitational pull
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.
Weight is greater on earth than in space due to gravity.
If the planet were the same size as Earth but its mass were some percent greater than Earth's mass, then your weight there would be that same percent greater than it is on Earth. A bathroom scale on that planet might not read exactly the number that I have described ... your apparent weight, as displayed by a bathroom scale, would also be influenced somewhat by the planet's rate of rotation, which might be something different from 15° per Earth-hour of time.
It would be greater in proportion to the difference in mass. The force of gravity is proportional to the product of the 2 masses, and yours didn't change.
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.