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The greater the distance between two objects, the less the force of gravity.
As a first approximation, mass should be considered to be constant. Mass will, however, increase if energy increases (due to the mass-energy equivalence). Thus, if you lift an object up, its potential energy will increase, and its mass will also increase, albeit very slightly.
The greater the distance from the axis of rotation (i.e., pivot point) to the center of gravity of an object, the greater the torque required to rotate the object.
As we are told by Newton's Law of Universal Gravitation, the force of gravity is inversely proportional to the square of the distance between the centers of the two objects in question. As a result, the attraction of gravity becomes less, as the distance from Earth increases. Note that since the Earth is quite large, about 4,000 miles in diameter, you are not going to notice a change in gravity if you travel away from the Earth by a small distance, such as you can do by climbing a mountain. You will still be approximately the same distance from the center of the Earth.
When you move away from a source of anything, its effects decrease because it has a greater volume of space to occupy.
Either if you decrease the distance, or if you increase one or the other of the masses.
No. They increase in weight.
At a greater distance, the gravitational force becomes less.
No. Gravity does decrease in strength as distance from Earth decreases, but it never goes to zero. At a distance of about 1.5 million kilometers, however, Earth's gravity becomes negligible and the sun's gravity has a greater influence on the movement of objects.
The greater the distance between two objects, the less the force of gravity.
Earth's gravity gets weaker and weaker at greater distances, but it never disappears completely. To be more precise, there is an inverse-square law: For example, if you increase the distance by a factor of 10, the force will be 100 times less.Earth's gravity gets weaker and weaker at greater distances, but it never disappears completely. To be more precise, there is an inverse-square law: For example, if you increase the distance by a factor of 10, the force will be 100 times less.Earth's gravity gets weaker and weaker at greater distances, but it never disappears completely. To be more precise, there is an inverse-square law: For example, if you increase the distance by a factor of 10, the force will be 100 times less.Earth's gravity gets weaker and weaker at greater distances, but it never disappears completely. To be more precise, there is an inverse-square law: For example, if you increase the distance by a factor of 10, the force will be 100 times less.
Mass and distance alter gravity Mass is directly proportional to the gravitational force, but distance is inversely proportional. (In other words, greater mass means greater force, and greater distance means less force)
Yes, it is not a constant. The force of gravity is related to the distance from the centre of the earth so that the force of gravity will be slightly reduced at altitudes. Also, the earth is not a perfect sphere - it bulges at the equator and is flatter at the poles. So the force of gravity will be greater at the poles. The force of gravity is also affected by what is under the surface: if standing over dense rocks, the force will be greater. Finally, the force of gravity is also higher after heavy rainfall. [I guess that is because the water fills up all the air gaps in the soil and so increases its density.]
Yes, it is not a constant. The force of gravity is related to the distance from the centre of the earth so that the force of gravity will be slightly reduced at altitudes. Also, the earth is not a perfect sphere - it bulges at the equator and is flatter at the poles. So the force of gravity will be greater at the poles. The force of gravity is also affected by what is under the surface: if standing over dense rocks, the force will be greater. Finally, the force of gravity is also higher after heavy rainfall. [I guess that is because the water fills up all the air gaps in the soil and so increases its density.]
increase means to think about something and decrease means to go down
As a first approximation, mass should be considered to be constant. Mass will, however, increase if energy increases (due to the mass-energy equivalence). Thus, if you lift an object up, its potential energy will increase, and its mass will also increase, albeit very slightly.
The greater the mass, the stronger the gravity, but the distance does not affect the amount of gravity.