Gravity is pulled towards the earths surface. From the top and bottom. The reason how i know this as i am 14 at school and have done many projects on this and researched books and been on the internet and all have been the same. i hope this will help you, and help others in their learning. thank you
On Earth, gravity pulls objects like crumbs downward towards the ground. In space, there is microgravity, so there is no force pulling the crumbs in a specific direction. As a result, crumbs in space would tend to float around rather than fall to the ground.
It's called 'gravity' everywhere on earth... Earths' gravitational pull is the basis for calculating other fields of gravity, with earth gravity being one unit, or 1G.
Earth (by definition has a gravity exerting a pull of 1g. Venus is almost the same as Earth but the pull of gravity there is 0.904g. So Earth has more gravity.
The force of attraction between the pin and the magnet is greater than the force of gravity acting on the pin. As a result, the pin moves upwards towards the magnet instead of being pulled downwards by gravity.
The pull of gravity on Earth is directly related to the mass of the Earth and the distance of an object from the Earth's center. The force of gravity decreases with increasing distance from the Earth's center but increases with greater mass.
Gravity is a pull from the earths core. it is known as a "force"
9.8
The Gravity becomes less
weaker
because of the rotation of the earths pull and gravity
You call it the "weight" of objects on Earth.
the earths gravitational pull keeps the moon in orbit
yes. everything that has a mass has gravity, including urself. but on the moon the gravity is only 17% as strong as earths gravity
Both mercury and mars have a gravity which is around 38% of earths. Mercury's gravity is 37.8% of earths, Mars' gravity is 37.7% of earths.
Gravity can pull water in and out, causing tide like motions. The gravity of the moon and sun, for example pull on the earths oceans and cause high and low tides.
The gravity of the moon
Tides