No. You would also know a direction (in 2 dimensions) or - in 3 dimensional space - either two directions, or one direction and additional distance information (such as the height above the ground).
No.
My left foot is 63.941 centimeters from my right foot but, fortunately, you still don't know where I am.
The distance between objects and the different is 0. The distance between the mass and an object is 1.
The gravitational attraction between two objects depends on both their masses and the distance between them. It is proportional to the product of the masses of the two objects divided by the distance between them (mass1 x mass2)/ distance between.
take a measuring tape and measure the distance between the two objects
the mass of the objects and the distance of the objects
Yes. At a greater distance, the gravitational attraction between two objects is less.
The distance between objects and the different is 0. The distance between the mass and an object is 1.
its inversely proportional to the square of the distance between objects.
The mass of the objects and the distance between them.
The gravitational attraction between two objects depends on both their masses and the distance between them. It is proportional to the product of the masses of the two objects divided by the distance between them (mass1 x mass2)/ distance between.
take a measuring tape and measure the distance between the two objects
the mass of the objects and the distance of the objects
The distance between two objects.
Yes. At a greater distance, the gravitational attraction between two objects is less.
The masses of the two objects and the distance between them.
the two are: - the mass of the objects - the distance in between the objects
Mass
-- the product of the masses of the two objects -- the distance between the two objects' centers of mass