Any object that is above the reference level (usually taken as ground level) has potential energy, according to the formula PE = mgh.
Any object that is above the reference level (usually taken as ground level) has potential energy, according to the formula PE = mgh.
Any object that is above the reference level (usually taken as ground level) has potential energy, according to the formula PE = mgh.
Any object that is above the reference level (usually taken as ground level) has potential energy, according to the formula PE = mgh.
uranus's gravitational pull is 91% or earth's.
i dont now
The gravitational pull of the earth is pretty much the same anywhere between the poles and the equator creating a centripetal force pulling things in towards the earth.. However, the rotation of the planet results in an outward centrifugal force pushing things away from the earth. This force is greatest at the equator. Even though the gravitational pull is the same everywhere, the centrifugal force at the equator gives the impression of a very slightly lower gravitational pull.
The four main factors that affect tides are the gravitational pull of the moon, the gravitational pull of the sun, the rotation of the Earth, and the shape of the coastline.
Mars' gravitational pull is 3.7m/s^2(3.7 meters per second squared) as opposed to Earth's gravitational pull which is 9.81m/s^2(9.81 meters per second squared). The closest you can get to mars is in 2050 with 56 millon killometers
Because Earth's gravitational pull is far greater than any gravitational pull possessed by humans..
Because the gravitational pull of the Earth is much larger than the gravitational pull of lets say... a human. You could argue that on earth there is a gravitational pull to humans, but the Earth is over powering that pull. So the object is pulled down (to the surface of the Earth) rather than to you or me.
Pull also such as a gravitational pull.
the moon effect's the earth in ways of it's gravitational pull
uranus's gravitational pull is 91% or earth's.
i dont now
An object have greater gravitational pull closer from earth. As we get farther from earth, the gravitational pull becomes weaker. That is why objects sufficiently away from the earth do not fall on it.
The gravitational pull of Earth keeps objects and people on the surface rather than floating off into space. The gravitational pull of Earth causes the tides in the oceans by attracting water towards the center of the planet.
The sun's gravitational pull keeps the earth in orbit around it.
The gravitational pull of the earth is pretty much the same anywhere between the poles and the equator creating a centripetal force pulling things in towards the earth.. However, the rotation of the planet results in an outward centrifugal force pushing things away from the earth. This force is greatest at the equator. Even though the gravitational pull is the same everywhere, the centrifugal force at the equator gives the impression of a very slightly lower gravitational pull.
weaker
Any two objects with mass will have a gravitational force. The orbit of planets around stars depends on the gravitational pull of the star. The Earth exerts a gravitational pull on its moon but the moon also exerts a pull on the Earth.