Gravitational force is a result of distance and mass. If the 50 kg and 5 kg objects were extremely close to each other and the 2 50 kg objects were really far apart from each other, then the gravitational attraction between the 50 kg and 5 kg object could be greater. However, if they are the same distances apart, the attraction with the most combined mass will have the strongest gravitational force.
Sure. The gravitational force between two objects depends not only on the product of
their masses, but also on the square of the distance between them.
-- If the 50 - 50 are 3.162 times as far apart as the 50 - 5 are, then the gravitational forces
between each pair are equal.
-- If the 50 - 50 are more than 3.162 times as far apart as the 50 - 5, then the gravitational
forces between the 50 - 50 is less than those between the 50 - 5 .
The gravitational force is proportional to the mass of the objects: Between two 50 kg objects it is ten times stronger than between a 5 and a 50 kg object. The gravitational force is also dependent on the distance between the two masses. The force is inversely proportional to the square of the distance. Therefore, the gravitational force between two 50Kg objects can be less than a 50Kg and a 5Kg object if the distance between the two 50Kg objects is greater than the distance between the 5Kg and 50Kg objects. See link for the equation to calculate the gravitational force.
yes by reducing the distance of the 50kg and 5 kg objects and increasing the distance of the the 50kg objects
mass of the objects and the distance between the objects. gravitational force can be found using: , where G is gravitational constant, m1 is the mass of object 1 (in kg) m2 is the mass of object 2 (in kg) r is the distance between the objects (in meters)
The mass of the objects and the distance between them.
As mass increases, so does the gravitational pull from the object.
The gravitational force is proportional to the mass of the objects: Between two 50 kg objects it is ten times stronger than between a 5 and a 50 kg object. The gravitational force is also dependent on the distance between the two masses. The force is inversely proportional to the square of the distance. Therefore, the gravitational force between two 50Kg objects can be less than a 50Kg and a 5Kg object if the distance between the two 50Kg objects is greater than the distance between the 5Kg and 50Kg objects. See link for the equation to calculate the gravitational force.
Mass
yes by reducing the distance of the 50kg and 5 kg objects and increasing the distance of the the 50kg objects
mass of the objects and the distance between the objects. gravitational force can be found using: , where G is gravitational constant, m1 is the mass of object 1 (in kg) m2 is the mass of object 2 (in kg) r is the distance between the objects (in meters)
Gravitational force depends on the masses of both objects and the distance between them. The formula is Gravitational Force = 6.67428 * 10^-11 * Mass of First Object * Mass of Second Object / Distance^2.
The mass of the objects and the distance between them.
As mass increases, so does the gravitational pull from the object.
The larger the mass of either object, the greater the gravitational force.
Move the objects closer together.
It is directly proportional to the product of the masses and inversely proportional to the square of the distance between the centres of mass of the objects.
The strength of the gravitational force between two objects depends on the product of their individual masses, and on the distance between their centers of mass. It's a bit sloppy to talk about one object's gravitational force on another object, because the forces are equal in both directions ... both objects pull each other with equal force.
The strength of the gravitational force of attraction between two objects is proportional to both masses.