no u don't
A person would weigh the most on Jupiter, since Jupiter has the strongest gravitational pull. If it were possible to stand on Jupiter's liquid core, or swim in its liquid core, we could say that a person would weigh the most on Jupiter.However, since Jupiter is actually a gas planet, there technically is no "on Jupiter". Earth is the most massive terrestrial planet in the solar system, so a person would weigh more on Earth than "on" any other planet.In other stellar systems you would weigh more on Brown Dwarfs circling stellar companions. Despite their categorization, Brown Dwarfs do not have hydrogen fusion reactions inside their core, making them closer in resemblance to gas giant planets.
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Earth is closer to the Sun Earth is 92,960,000 miles (149,600,000 km) Sun, Distance to Earth Mars is141,600,000 miles (227,900,000 km) Mars, Distance from Sun
If the moon were closer to earth there would be a stronger gravity pull on earth. It could be so strong that it would take us more then 10 minutes to take 6 steps!
Neither. Although you weigh more on earth your mass is the same no matter where you are.
Uranus is a gas planet. You would weigh about 66 pounds at the point where the atmospheric pressure is about equal to earth's. The closer to the core you go, the more you would weigh.
Uranus is a gas planet. You would weigh about 88.6 pounds at the point where the atmospheric pressure is about equal to earth's. The closer to the core you go, the more you would weigh.
Uranus is a gas planet. You would weigh about 106 pounds at the point where the atmospheric pressure is about equal to earth's. The closer to the core you go, the more you would weigh.
Uranus is a gas planet. You would weigh about 59 pounds at the point where the atmospheric pressure is about equal to earth's. The closer to the core you go, the more you would weigh.
None, only the earths core is more closer, the moons surface is 37.000 Vertices from earth
Uranus is a gas planet. You would weigh about 67 pounds at the point where the atmospheric pressure is about equal to earth's. The closer to the core you go, the more you would weigh.
half way. this is because the closer you are to Earth, the more gravity you have weighing down on you so you weigh more. The moon has less gravity than the Earth so you would weigh less. However, your mass always stays the same.
When the material gets closer to the core it gets hotter and more dense.
no, we do not weigh the same at the poles because as the earth is not perfectly round and is like an orange, the distance between the object and the earth's core is less due to which we weigh more on poles
No, because it is only slightly larger than Earth's core, but is off an almost equal density.
There are differences in chemistry (the mantle is mainly ultramafic rock--the outer core is metallic), in phase (the mantle is predominately solid--the outer core is liquid), in depth (the outer core is closer to the center of the Earth), and in density (the outer core is more dense).
In classical physics, the attraction of gravity depends on the mass (weight) of the two objects (you and the earth) divided by the square of the distance between them. Thus you would weigh more in a valley (closer to the center of the earth) than you would on a mountain top (farther away)One might want to argue that when you were in the valley, the mass of the mountains above you countered the pull of the earth, but I think this effect would be trivial