It decreases as you move away from Earth.
The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).
lessens by distance squared
Gravitational force = GM1M2/D2 The distance is squared and in the numerator
Gravity gets weaker the further away you get. Specifically it varies with 1 divided by the distance squared.
It's an inverse squared law. So gravity is (1/2)^2 1/4 of the first value
The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).The gravitational force is inversely proportional to the square of the distance. For example, if you increase the distance by a factor of 10, the force will decrease by a factor of 100 (10 squared).
Decreasing the distance between two objects will increase the force of gravity. Gravity is proportional to the mass of the two objects and inversely proportional to the square of the distance between them.
The further two objects are from each other, the smaller the gravity, the equation for this is: Mass 1 X Mass 2 ---------------------- Distance Squared
lessens by distance squared
Gravitational force = GM1M2/D2 The distance is squared and in the numerator
Gravity gets weaker the further away you get. Specifically it varies with 1 divided by the distance squared.
Y=½ gt2 y is the distance g gravity (on earth is 9.8 m/s squared) t is the time
The greater the mass the stronger the gravitational pull. You probably mean the "surface gravity". This is also affected by the distance of the surface from the center of the planet or Sun. The strength of the gravity falls in proportion to the distance squared, in accordance with Newton's Law of Gravity.
It's an inverse squared law. So gravity is (1/2)^2 1/4 of the first value
The acceleration of gravity, g, is measured in units of acceleration, which is to say units of distance per time squared. For example, meters per second squared.
Work Done = Force x Distance = Power / Time = (Force x speed)/Time
Assuming you mean from the center of the Earth: 1/22 = 1/4, that is, 1/4 the gravity at the Earth's surface. If you mean two Earth radii from the surface, then the distance from the Earth's center would be 3 times as much, and the force would be 1/9, compared to the Earth's surface. _______________________________ The force of gravity changes with the reciprocal of the square of the distance. So if the distance is increased by a factor of 2, the force will DECREASE by a factor of two squared, or 4. So, double the distance = one-quarter the force.