Exactly. Actually, you pull with an extremely EXTREMELY low force on the earth. In this example, the formula would have been: F = (gamma) * (m1 * m2 / r2 )
Where:
F = force
(gamma) = a constant which is given.
m1 = you (or the earth, it doesn't matter which of the masses are which, they're proportional)
m2 = mass of earth
r = radius
I'm sorry, my English might be a bit off seeing that I'm norwegian.
No. Gravity is not a substance. It is an attractive force between objects with mass.
Gravity is a force of attraction between objects due to their mass.
Gravity
The mass of the objects and the distance between them.
No. Gravity always behaves predictably, according to the same formula,no matter what happens to the mass of objects.However, the forces that gravity creates between objects do depend onthe masses of the objects, and if the mass of either object changes, thenthe forces between them change.
They must have mass. This is not a particularly stringent or discriminatory requirement.
The only requirement for mutual gravitational forces to exist between two objects is that the objects have mass. That's usually a simple requirement to satisfy.
The mass of the objects and the distance between them.
Yes. All objects that have mass are affected by gravity and the gravitational force varies with the masses of the objects.
Gravity pulls all objects that have mass together.
-- the mass of both objects -- the distance between their centers of mass
The mass of the objects and the distance between them.
No. Gravity is not a substance. It is an attractive force between objects with mass.
Gravity is a force of attraction between objects due to their mass.
Gravity
No. Gravity always behaves predictably, according to the same formula,no matter what happens to the mass of objects.However, the forces that gravity creates between objects do depend onthe masses of the objects, and if the mass of either object changes, thenthe forces between them change.
Two things reduce the force of gravity between two objects: an increase in the distance between the two objects or decrease in mass of the two objects