The force of mutual gravitational attraction between the earth and any other object
pulls the object toward the center of the earth, and pulls the earth toward the center
of the object. Both pulls have equal strength.
The earth's pull on objects is the force of gravity.
I assume you mean "between Earth and other objects". That is called the WEIGHT of the objects.
An object have greater gravitational pull closer from earth. As we get farther from earth, the gravitational pull becomes weaker. That is why objects sufficiently away from the earth do not fall on it.
from the earth's strong gravitational pull, when something is so large it has a gravitational pull other objects are able to orbit it
the difference between the gravitational pull on th eearth and moon is 1/6th. The gravitational pull on the earth is 6 times more than the garvitational pull of the moon. If some one weighs 36 kgs on earth then the weight on moon will be 6 kgs.
The earth's pull on objects is the force of gravity.
I assume you mean "between Earth and other objects". That is called the WEIGHT of the objects.
The earth pull an 1 N apple with a force of 1 N towards the center of gravity of earth. The apple do not posses enough mass to pull the earth. (100g)
Any object that has a mass.
to pull objects toward the sun, and create a gravitational pull of Earth.
You call it the "weight" of objects on Earth.
It does. Earth, along with everything on it is pulled toward the sun by gravity. However since they are all pulled in the same direction at the same rate, everything stays on Earth.
When an object is pulled, it moves in the direction of what is pulling it.
No, the pull is essentially the same on all objects at the surface of the earth.
The earth's gravitational pull makes objects sink in a liquid, but buoyancy acts in the opposite direction to oppose the gravity. Whether an object sinks or floats depends on which force is bigger. ================================
An object have greater gravitational pull closer from earth. As we get farther from earth, the gravitational pull becomes weaker. That is why objects sufficiently away from the earth do not fall on it.
forces