Please take a look around you, and do some experimenting. If you hold an object in your hand and let it go, will it normally fall up, or down? The answer is down. gravity pulls you down. THERYAGO.
We don't actually know. As far as we can tell, it boils down to "because that's how things are." Most theories of gravity at most push that back one step: "Because mass curves spacetime" "Why?" "Because that's how things are."
Gravity causes things to fall to the ground. I believe it can push or pull things to the ground, to the center of the magnetized earth.
When you push up on an object, you are applying an additional force that is opposing gravity, increasing the total force acting on the object, including your weight. When you push down on an object, you are applying a force that opposes gravity and counteracts part of the force of gravity acting on the object, hence reducing the effective weight felt by the object.
Weight is not a push or pull, but rather a force exerted by gravity on an object. It is the force that pulls objects toward the center of the Earth.
When you stand up, you do not push the earth down. Your height does not change the earth's position. Instead, you grow taller by the expansion and elongation of your bones and muscles.
no it is not because gravity brings things down to earth and magnetism can push things up.
swag
swag
We don't actually know. As far as we can tell, it boils down to "because that's how things are." Most theories of gravity at most push that back one step: "Because mass curves spacetime" "Why?" "Because that's how things are."
Gravity causes things to fall to the ground. I believe it can push or pull things to the ground, to the center of the magnetized earth.
The force you exert on the Earth due to gravity is equal to your mass multiplied by acceleration due to gravity. On average, this force is approximately equal to your weight.
No it does not.
gravity pulls us towards the centre (core) of the earth. because bears.
A pull towards earth's center
When you push up on an object, you are applying an additional force that is opposing gravity, increasing the total force acting on the object, including your weight. When you push down on an object, you are applying a force that opposes gravity and counteracts part of the force of gravity acting on the object, hence reducing the effective weight felt by the object.
No.
Because you have to push against gravity to get to outer space. when re-entering, gravity pulls you back down to the earth. imagine the fair ride that drops you and raises you. you fight gravity to go up, then gravity pulls you back down much faster when you fall.