No. Pluto is actually smaller then Our Moon, Therefor Less gravitational Pull.
Liquids are easier to move around more.
Mass, not density, and the closeness of objects, affects an object's gravitational pull. Density is not dependent on an object's size, but mass is. The more massive an object, and/or the closer an object is to another, the greater its gravitational pull.
uranus's gravitational pull is 91% or earth's.
The acceleration due to gravity of Uranus at its "surface" is about 8.69 m/s2. On Earth is it 9.8 m/s2. This means that Earth's gravity is about 13% larger than Uranus's gravity. Uranus is more massive than Earth, but mass is only half of what makes a gravitational pull. Uranus's gravitational pull is smaller that Earth's because it's "surface" is farther away from it's center.
no
Mass and density. The more mass an object has the higher its gravitational pull is. Some places on Earth are more dense than others. therefore they have more mass which can slightly increase the gravitational pull at that area.
i think in the moon there is more gravitational
No. Pluto is actually smaller then Our Moon, Therefor Less gravitational Pull.
Liquids are easier to move around more.
The gravitational pull from Jupiter to the sun is stronger than the gravitational pull from Saturn to the sun. This is because Jupiter is more massive than Saturn, so it exerts a greater gravitational force over larger distances.
Everything on Jupiter weighs more than twice as much as on Earth. This means that Jupiter has a gravitational pull that is more than twice that of the gravitational pull on Earth.
You have the same mass anywhere, but you weigh more or less on a planet depending on the gravitaional pull of the planet. The more gravitational pull, the more you weigh. The gravitational pull depends on the size of the planet. The bigger the planet, the more gravitaional pull.
Gravity - liquid is fluid so it moves when a gravitational force pulls on it.
No. "Pull" is a force, not an acceleration.
Mass, not density, and the closeness of objects, affects an object's gravitational pull. Density is not dependent on an object's size, but mass is. The more massive an object, and/or the closer an object is to another, the greater its gravitational pull.
All materials with mass exert a gravitational pull.