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Do the Earth and the Moon have the same gravitational pull?
No. Earths in much more powerful.
What is the gravitational pull?
Less than one tenth (1/10) of the earths gravitational pull.
What is the measure of earths gravitational pull on matter?
WIEGHT
Why does the moon have more gravitational pull on the Earths oceans than the moon if the sun is so massive?
It is because the moon is much closer to the earth. Gravitational pull decreases in proportion to the square of the distance.
How does Earth has gravity?
the earths gravitational pull keeps the moon in orbit
Why does asteroids hit earth?
Asteroids will hit earth every now and then because of the earths gravitational pull, but we don't get as much as Jupiter seeing as it has the highest gravitation pull.
How does a meteor get to earth?
well the meteor would be sucked in by the earths gravitational pull
What happens when you get out of Earths gravitational pull?
When you reach beyond Earth's gravitational pull, you enter outer space. Objects in space continue to be influenced by the gravitational forces of other celestial bodies such as the sun, planets, and stars. Becoming free from Earth's gravitational pull allows spacecraft to travel to other planets and explore the universe.
What is the gravitation pull on Ceres the Dwarf Planet?
The gravitational pull on Ceres, the largest asteroid in the asteroid belt and classified as a dwarf planet, is much weaker than Earth's. Ceres has a gravitational acceleration of about 0.28 m/s² at its surface, which is about 6% of Earth's gravitational acceleration.
What object in the sky has the most significant affect on earths tides?
the moons gravitational pull
What affects the earths gravitational pull?
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.
What effect does earth's own gravitational pull have on a tossed ball?
Earth's gravitational pull causes the ball to fall back down to the ground after being tossed. The strength of the gravitational pull determines how quickly the ball falls and how high it can be thrown.
