Your mass does not change no matter which planet you're on. That is because mass is a measure for how much material there is. However, your weight will change because it is the measure of how much you're being pulled down by a planet.
The mass of planets is tabulated on wikipedia. The gravitational strength is measured by the mass.
It is not appropriate to talk about a planet's "weight". Rather, you talk about its "mass". In our Solar System, the planets with the greatest mass are (in this order): Jupiter, Saturn, Neptune, Uranus.
the galaxy has difrent kinds of mass arouund each planet depending on what planet you are speaking of, it might be because of mass of the planet or what size a revolution (size of a complete circle) it must make
The mass of planet Earth is 5.9736 × 1024 kg
Due to the gravity force which vary according to the mass of each planet.
The mass of the planet, the mass of the sun and the distance between the two.
Your mass does not change. Your weight, however, changes in proportion to the gravity of each planet.
No. Your mass will stay the same. Your weight, however, will change in direct proportion to each planet's gravity.
No. The planets vary greatly in both size and mass.
because its mass
venus and earth
No. Weight is the measure of how much force a planet pulls an object, that force is determined by the planet's mass and radius, and each planet has a different mass and radius.
It is not appropriate to talk about a planet's "weight". Rather, you talk about its "mass". In our Solar System, the planets with the greatest mass are (in this order): Jupiter, Saturn, Neptune, Uranus.
The weight of an object on the surface of a planet depends on ...-- The mass of the object.-- The mass of the planet.-- The distance between the center of the object and the centerof the planet, i.e. the planet's radius.
the galaxy has difrent kinds of mass arouund each planet depending on what planet you are speaking of, it might be because of mass of the planet or what size a revolution (size of a complete circle) it must make
No, the mass of a planet does not equal the size of that particular planet.
all parts of the planet pulled each other toward the center of the mass by gravity
Volume