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How does the gravitational force between 2 objects that have small masses compare to the gravitational force between large objects?
If the objects are the same distance apart (center to center), then the gravitational force between two less massive objects will be less than the gravitational force between two more massive objects.
Is there more gravitational force between objects with small masses or objects with large masses?
There is more gravitational force between objects with large masses compared to objects with small masses, as gravitational force increases with the mass of the objects. This is described by Newton's law of universal gravitation, which states that the force of gravity is directly proportional to the product of the masses of the two objects and inversely proportional to the square of the distance between them.
How does the gravitational force between objects that have small masses compared to the gravitational force between large objects?
The force of gravity exerted by an object is directly proportional to the mass of an object: it exerts this force on other matter, while the gravity of other matter also exerts a force.The formula is: F= G * m1m2/r squared - G is the gravitational constant, m1 and m2 masses, and r the distance between them (their centers of mass)Where, however, one object is much more massive, the acceleration induced by the larger object (e.g. Earth) is negligibly different for small objects of different mass, so that while the force is greater on larger objects, the accelerations are the same.
How does gravitational force compare between objects that have small masses and objects that have large masses?
It will be larger between the large objects. This force is equal to the universal gravitational constant times the two masses of the objects, all divided by the square of the distance apart the objects are.
What two factors influence the amount of gravitational force when is gravity the strongest?
The two factors that influence the amount of gravitational force are the masses of the objects and the distance between them. Gravity is strongest when the masses of the objects are large and the distance between them is small.
Is the force of gravity greater between two objects that have greater masses?
Gravity is greater between objects with large masses than between objects with small masses.
Why there is no force of attraction between closer objects?
If you mean gravitational attraction, there is such a force between ANY two objects. The force depends on the distance (if two objects are closer, the attraction is stronger), and on the masses involved (if the masses are larger, the force is larger). The masses of "everyday" objects, for example two people, are so small (for the purposes of the gravitational force) that the force is hard to measure.
How is the gravitational force acting between two objects related to mass?
The gravitational force between two objects is proportional to the PRODUCT of the two masses.So for the same distance between the pair, two small masses would attract each other with much less forcethan would two large masses, and with less force than one small mass and one large mass would.
Can you create gravitational force?
Gravitational force is the attraction between two masses. It can be explained by Force=(Mass1*Mass2)/Distance. Everything is attracted to the earth because the earth has such a large mass. So on a small scale it is just about impossible to create gravitational force.
why we can not feel gravitational force around us?
The masses of humans are quite small and thus the magnitude of gravitational force is also very small and negligible as compared to that shown by Earth. Thus, gravitational force exists between two people sitting close by but it is negligible and cannot be felt.
Is there a great gravitational force between a marble and a baseball 5 meters apart?
No, the gravitational force between a marble and a baseball 5 meters apart is extremely small due to their relatively low masses. The force of gravity between two objects decreases significantly as the distance between them increases.
When is gravity zero?
The force of gravitational attraction between two masses is never zero. There is a force of gravitational attraction between a hair on your head and the smallest moon in the farthest galaxy. The force may be too small to measure, but it's never zero.
