Newton's law of gravitation:
F = G * m1* m2/r^2
The force between the objects serves to attract the objects to one another. It is proportional to each of the masses, and inversely proportional to the separation.
The gravitational force between two objects is directly proportional to the product of their masses. Therefore, an increase in the mass of an object will result in a stronger gravitational force between that object and another object.
If one object near another object is increased in mass, the gravitational force between the two objects will increase. This will cause the objects to exert a stronger attraction on each other, leading to a greater gravitational pull between them.
Two factors that affect the gravitational force between two objects are the mass of the objects and the distance between them. The greater the mass of the objects, the stronger the gravitational force, and the closer the objects are to each other, the stronger the gravitational force.
Mass, not density, and the closeness of objects, affects an object's gravitational pull. Density is not dependent on an object's size, but mass is. The more massive an object, and/or the closer an object is to another, the greater its gravitational pull.
There are two factors that affect the gravitational attraction between two objects. The mass of each object and the distance between their centers of mass are the factors that affect the attraction.
The amount of mass of the object and other objects near by, as well as distance to the other objects.
There are two factors that affect the gravitational attraction between two objects. The mass of each object and the distance between their centers of mass are the factors that affect the attraction.
An object's size does not directly affect its gravity. Gravity depends on an object's mass and distance from other objects. However, larger objects with more mass tend to have stronger gravitational pulls.
The factors that affect the way gravity acts on an object include the mass of the object and the distance between the object and the source of gravity (such as the Earth). Objects with more mass experience a stronger gravitational force, while objects that are farther apart experience a weaker gravitational force.
Weight is due to gravitational forces between two objects. A single object inspace without another one reasonably nearby, or even in gravitational free-falltoward another object, is weightless. So you can not weigh an object in space.Determining the mass of objects in space is another matter.
The mass of the object that is exerting the force and the distance between the two objects.
The energy of an object or particle due to its location relative to another object or particle is called gravitational potential energy. This energy is determined by the mass of the objects, the distance between them, and the gravitational constant. It represents the potential for work to be done as a result of the gravitational force between the objects.