because the density of the particles in space (dark matter) are further appart than stars, planets, etc, etc. So it has less pull than all the other objects that are in space.
To calculate weight in space, you would use the formula: Weight in space = Weight on Earth x (gravitational pull of space / gravitational pull of Earth). Since gravitational pull in space is typically much lower than on Earth (about 0.17 times that of Earth), your weight in space would be significantly less. Keep in mind this calculation assumes a constant gravitational pull throughout the region of space you are in.
Gravitational pull is less for Mercury, Venus, Mars and Uranus. And th eother planets have higher gravitational pull.
Less than one tenth (1/10) of the 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.
this answer is false because when you go into space you start to float. So the answer is false. You loose the gravitational pull not gain gravitational pull.
no bullets do not move in space because there is no gravitational pull
Because the Earth's gravitational pull is stronger than the gravitational pull of the Moon. But your mass remains the same
An object would weigh less on the moon compared to Earth because the moon has less gravitational pull than Earth. Weight is a measure of the gravitational force acting on an object, so with less gravitational pull on the moon, the object would weigh less.
because they have a gravitational pull
yes it can
No. Pluto is actually smaller then Our Moon, Therefor Less gravitational Pull.
Astronauts get in space by riding rockets that shoot them up and away from the Earth's gravitational pull.