It certainly gets pulled toward the Earth. Without the pull of gravity, the satellite would continue moving in a straight line, instead of going around the Earth in a circle or ellipse.
it is slowed by liquid friction, and pulled to the ground by gravity
The force that causes the ball to fall to the ground is gravity. Gravity is a natural force that attracts objects towards each other, and in the case of the ball falling, it is being pulled towards the Earth's center by the force of gravity.
everything is pulled by gravity. solids, liquids, everything...
when you're going on a slide you are being pulled toward the ground so it would be gravity.
First of all, the atmosphere is the air. Secondly, air is matter, all matter is affected by gravity. Imagine this: the sea is liquid, it lies on the earth, pulled by gravity. the atmosphere is also like this except it is a "sea" of air, it lies on the earth, pulled by gravity.
gravity
Yes it is true. There is no way to turn gravity off or shield anything from it, so everything is always being pulled toward everything else by gravity.
The satellite is being pulled by the earths gravity all of the time, but the satellite also has an orbital velocity, meaning that is is travelling at high speed. These two opposing forces balance out, the 'sideways' speed of the satellite wants to take it away into space, but the gravity of the earth is always pulling it in. The satellite maintains its speed as there there are no frictional forces to slow it down in space, so it maintains an orbit.
it is slowed by liquid friction, and pulled to the ground by gravity
If there was no gravity your eyes might have the chance of your being pulled out of your head if not the proper gear is with you also would be lifted from the ground because you will not have the gravity to hold you down
The force that causes the ball to fall to the ground is gravity. Gravity is a natural force that attracts objects towards each other, and in the case of the ball falling, it is being pulled towards the Earth's center by the force of gravity.
Gravity and air resistance will both play a part. Air resistance is likely to reduce speed and gravity will cause the bullet to be pulled towards the ground.
Gravity wants to pull the satellite back to Earth - the speed the satellite travels around the Earth wants to fling it out into space. The two forces cancel each other out, and so the satellite remains in orbit - pulled in opposite directions with equal force.
If gravity increased you would lift up and float in the sky.If gravity decreased you would be pulled to the ground even more than you are now
1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.
yes because the ball is pulled to the ground while the ball is in mid-air because of gravity
everything is pulled by gravity. solids, liquids, everything...