Centrifugal force doesn't exist, and no outward-pulling force is caused by rotating an object.
No; "centripetal" implies an inward force.
There is no force directed away from the center.If there were no force at all on the object, it would continue to travel in a straight line.The force directed inward, toward the center, is what bends its path around the center.
Centripetal force works opposite tangential acceleration.
radially inward
The inward force needed for circular motion is called centripetal force. It is directed towards the center of the circle and is required to keep an object moving in a curved path instead of a straight line. Without this force, the object would continue in a straight line tangent to the circle.
Centrifugal force doesn't exist, and no outward-pulling force is caused by rotating an object.
clatrive
No; "centripetal" implies an inward force.
There is no force directed away from the center.If there were no force at all on the object, it would continue to travel in a straight line.The force directed inward, toward the center, is what bends its path around the center.
Centripetal force works opposite tangential acceleration.
Your question isn't exactly stated correctly, but the result that I believe you are looking for is that, the object will be in Orbit around the Earth. This happens when the Centrifugal Force (outward from the rotation) balances out against the Pull of Gravity (Inward). For a body rotating about the Earth, the inward Force would be the Force of Gravity, which would account for the Centripetal Force. Gravity is 'taking the place of' the piece of string that holds an object in place when it is swung around in a circle.
There is no outward force of rotational motion. It is a force that is applied inward, towards the center of the circle that the object is traveling around. This is called centripetal force.The perceived outward force, also known as centrifugal force, is actually a reaction force to the inward centripetal force, and is a consequence of Newton's third law of motion - "To every force, there is an equal and opposite reaction force."
The inward force among the molecules of a liquid is Surface Tension
The inward force among the molecules of a liquid is Surface Tension
The force that keeps objects moving in a circle is known as the centripetal force, which acts towards the center. The velocity of the object moving in a circle will be tangential to the circle.
the object will go in its tangential direction of that instant. centripetal force pulls the object toward its rotational axis, so if there is no force pulling it inward; inertia will make the object go in the direction it "wants to go" aka- its tangential direction