In that case, the mass will also be 10 kg.
If the 'weight' of a body is the gravitational force between the body and the Earth, then as long as the body stays at about the same distance from the center of the Earth, its weight is constant, and has no connection with its motion.
The center of gravity is the theoretical point where all the body weight is concentrated or the theoretical point about which the body weight is evenly distributed. If a body is of uniform density and has a symmetrical shape the center of gravity is in the geometric center. If the object is not symmetrical and does not have uniform density, it is more difficult to describe the location of its center of gravity.
At the center of earth or any other heavenly body.
Since the distance from the Earth's center will be doubled, the force or weight will be reduced by a factor of 4.
The acceleration due to gravity is a property of the Earth's mass and radius, and of gravity itself, and doesn't depend on which way something is moving. -- The acceleration produced by a force is always in the direction of the force, and the forces of gravity act along the line between the centers of two objects. -- One force of gravity acts on the body that's up in the air, pulling it ... and therefore accelerating it ... toward the center of the Earth, with acceleration equal to the body's weight/the body's mass = 9.8 meters per second2. -- The other force of gravity acts on the Earth, pulling it ... and therefore accelerating it ... toward the center of the body that's up in the air, with acceleration equal to Earth's weight/Earth's mass. In order to calculate that number, you have to know the Earth's weight. It's the same as the weight of the body that's up in the air, since the forces of gravity are equal in both directions. So once you know the weight of the body on Earth, you know the weight of the Earth on the body, and you can calculate the Earth's acceleration when they're falling toward each other.
In theory, at the center of the Earth you would have no weight.
Center of earth.
The gravitational force between the earth and a body at the center of the earth would be 0 Newtons or 0 lbf. F=G (m1*m2)/r^2 r = zero if the center of the body is at the center of the earth
Zero
equator
1/6 that of the earth
Earth; geocentric
If the 'weight' of a body is the gravitational force between the body and the Earth, then as long as the body stays at about the same distance from the center of the Earth, its weight is constant, and has no connection with its motion.
The center of gravity is the theoretical point where all the body weight is concentrated or the theoretical point about which the body weight is evenly distributed. If a body is of uniform density and has a symmetrical shape the center of gravity is in the geometric center. If the object is not symmetrical and does not have uniform density, it is more difficult to describe the location of its center of gravity.
In the center of the Earth gravity is equal at every side causing you to be "weightless".
If you take out the heat factor, then yes. Gravity is so strong at the center of the Earth that your entire body would be crushed under the pressure.
it is the field that atract our body toward it by hight and wightANS2:The center of gravity is synonymous with the center of mass and it is located near the geometric center of the planet.