The gravitational attraction between two masses is
F = G M1 M2/R2
For this exercise,
M1 = 8 kg
M2 = 4 kg
R = 0.5 km = 500 meters
and 'G' is the universal gravitational constant, G = 6.67 x 10-11
F = (6.67 x 10-11) (8)x(4)/(500)2 = 8.5376 x 10-15 = 0.000 000 000 000 0085376 newton
That's about 3.071 x 10-14 ounce (0.000 000 000 000 03071 ounce)
Matter is bound energy displacing space, the volume and density of displacement is the mass of the matter involved. Gravity is the attraction between matter displacing space, weight is measure of the force exerted by matter due to its gravitational attraction. Therefore the atomic mass of a collection of matter defines the gravitational attraction that matter will exert which will define the measurable weight of the matter in question.
The mass of each object and the distance between their centers of mass
F = G m1m2/R2F = the mutual gravitational force of attraction between two massesG = the universal gravitational proportionality constantm1, m2 = the masses of the two massesR = the distance between the centers of mass of the two masses
If the mass is already moving, then no force is required to move it any desired distance,and if it's not moving, then any force will start it moving. We'll say that there's no definiterelationship between force, mass, and distance.
No. The relationship is: weight = mass x gravity Mass causes both weight, and inertia. Weight is the force of attraction by gravity, and also depends on the gravitational field, not just on the mass. For more information, check the Wikipedia article "Mass versus weight".
A force of attraction between two separated masses. A single mass also has a scalar gravitational potential field around it.
Gravitational force is dependent on mass and distance.
The force of attraction between masses is called gravitional force or gravity
Decreases
mass
The answer is gravitational attraction. It is the attractive force between all objects that have mass. It's between you and me, you and your PC, and between everything.
The mutual gravitational attraction between the satellite's mass and the earth's mass. Short answer: The force of gravity.
Gravity is a force of attraction between objects due to their mass.
that is the gravitational attraction force
Gravity is the attractive force between two masses. The greater the mass, the stronger the attraction.
Two factors affect the gravitational attraction between objects: mass and distance.
yes,there is a force of attraction and this force is included in universal law that(every body attracts every other body with some force that is directly proportional to mass of the body and inversely proportional to the square of distance between there centers)