gravitational mass
Gravity.
This is a weirdly worded question but friction.
An action-reaction pair is a pair of objects that interact to produce a force on each other of equal magnitude but of opposite direction. Object A exerts a force on object B that pushes/pulls it; and object B exerts a force on object A that pulls/pushes it (respectively). It is a concept based on Newton's third law of physics. For ex. The earth has a gravitational force on the moon (which in part keeps the moon in orbit) but the moon also has a force on the earth (which causes the welling up of water- i.e. the tides- during different phases of the moon).
Which object exerts more gravitational force, object A with a mass of 25 grams and a density of 2 g/cm3 or object B with a mass of 55 grams and a density of 0.5 g/cm3? Gravitational force is dependant on the mass and the mass alone. Object B mass 55 g will exert a force on say a mass of 1g at a say 1 meter over twice that of object A . In the gravitational field of earth one would weigh 55g and the other 25g As the gravitational force between two masses is is G X (M1 X M2)/R2 where R is the distance between them there is will be an attractive force between the two objects that that acts on both objects. In the absence of any other forces they will move towards each, g the 25 g object accelerating more quickly.
The tendency is called inertia. The inertia of an object is directly related to its mass, since the effect of any given force depends on the mass and motion of the object (and whether the force acts with or against any other existing forces).
When something exerts a force on an object, that object exerts an equal and opposite force on the other object.
Gravitational Force
It means that if one object exerts a force on another object, the other objects exerts a force back on the first object.
Every single object in space exerts a force on every single other object. They don't even have to be close.
CHEESE
Gravity.
Gravity.
It's directly proportional.
The mutual force with which every two masses attract each other because of gravity is referred to as the "weight" of the objects.
Gravity.
Gravity.
More mass will cause more gravitational force.