Want this question answered?
Yes. Gravitational attraction from other objects - mainly the other planets - will gradually change this path.
When you get out of earths gravitational pull, you aren't rotating around it like the moon. You are free to float into space.
is 20x earths
earths moon is located basicly on the earths gravitational pull called the ionosphere which is the highest magnetic field of earth
The gravitational forces of the Sun and Moon, effect the earths oceans by forming tides.
For absolute zero gravitational attraction - Infinity. The gravitational attraction due to the Earth is also zero at the centre of the Earth.
No. Mass is the quantity of actual stuff of which an object is composed.The force of gravitational attraction between the Earth and the object'smass is called the object's "weight" on Earth.
8,9 m/s2 The gravitational attraction on the surface of Venus.
The moons gravitational attraction is weaker as the moon is smaller
if the sun turned into a black hole we would be gone in seconds... it wouldn't matter Another answer: The Earth gravitational attraction would remain the same. Sun's gravitational attraction would also remain the same. Why? Because their mass would remain the same.
Yes. Gravitational attraction from other objects - mainly the other planets - will gradually change this path.
because the gravitational attraction of moon is very low(about 1/6th of earths') which is not sufficient to hold the air molecules to form atmosphere.
No. There is a gravitational force of attraction between every two masses in the universe. The strongest pair of forces you feel is the pair between you and the earth, which you call your "weight". It would be there even if the sun were not there.
All objects within the universe attract all other objects through gravity. as distance increases this attraction lessens to an insignificant amount, however the force is still there. therefore the Earth's gravitational field's range is limitless.
When you get out of earths gravitational pull, you aren't rotating around it like the moon. You are free to float into space.
-- Take an object of known mass, such as a liter of water.-- Measure the force of gravitational attraction between it and the earth, by placing it on a scale and "weighing" it.-- Knowing the distance from the center of the earth (earth's "radius") and the value of the Gravitational constant,and using the formula for the gravitational force between two masses, the earth's mass can now be calculated.
Less than one tenth (1/10) of the earths gravitational pull.