no
yes
well if it has little mass it has little weight and if you have a lot of mass the possibility of it would be that it weights a lot
well if it has little mass it has little weight and if you have a lot of mass the possibility of it would be that it weights a lot
Gravity is greater between objects with large masses than between objects with small masses.
no because something can be big but can be light . some thing small can be very hevy
yes
well if it has little mass it has little weight and if you have a lot of mass the possibility of it would be that it weights a lot
no
well if it has little mass it has little weight and if you have a lot of mass the possibility of it would be that it weights a lot
well if it has little mass it has little weight and if you have a lot of mass the possibility of it would be that it weights a lot
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.
Gravity is greater between objects with large masses than between objects with small masses.
Objects of greater mass have more gravitational pull.
no because something can be big but can be light . some thing small can be very hevy
Those were the objects the mechanics were developed for.
The strength of the gravitation force between two objects depends upon the distance between the two objects and their masses. F = (M1*M2*G)/R2 (Newton's Law of Gravitation) Here M1 and M2 are the masses of the two objects, G is the universal gravitational constant, and R is the distance between the two objects. If the masses of the two objects are large the attraction between them will also be large. However, as the radius increases the gravitational force between the two decreases by the square of the distance. So, the gravitational force depends mainly upon the distance between the two objects, but also significantly upon the masses of the two objects.
The strength of the gravitation force between two objects depends upon the distance between the two objects and their masses. F = (M1*M2*G)/R2 (Newton's Law of Gravitation) Here M1 and M2 are the masses of the two objects, G is the universal gravitational constant, and R is the distance between the two objects. If the masses of the two objects are large the attraction between them will also be large. However, as the radius increases the gravitational force between the two decreases by the square of the distance. So, the gravitational force depends mainly upon the distance between the two objects, but also significantly upon the masses of the two objects.