Centripetal Force is the correct answer
Well, I was taught that it was centripetal force, but that was a long time ago.
when an object moved in a circular path it accelerates toward the center of the circle as a result of
Yes you do. You need a force that always attracts the object toward the center of the circle. It's called a "centripetal force".
In toward the center of the circle.
Gravity is unopposed while an object is falling.
Centripetal Force is the answer :)
When an object moves in a circular path, it accelerates toward the center of the circle due to the centripetal acceleration. This acceleration is necessary to keep the object moving in a curved path rather than in a straight line.
Well, I was taught that it was centripetal force, but that was a long time ago.
when an object moved in a circular path it accelerates toward the center of the circle as a result of
The Centripetal force keeps a object moving in a circle and its force and acceleration are directed toward the center of the circle
Yes you do. You need a force that always attracts the object toward the center of the circle. It's called a "centripetal force".
In toward the center of the circle.
Gravity is unopposed while an object is falling.
Earth's gravity pulls all objects toward its center of mass, or in most cases toward the surface. Gravity is a property of matter,and causes every mass to exert a force on every other mass. In this case, the Earth's gravity applies a force to every object on it, and that force will accelerate an object toward the Earth's center, unless it is prevented by some intervening mass. It will still have the potential to accelerate again if the intervening mass is removed.
Heavier than air objects accelerate downwards. Lighter than air objects accelerate upwards until they are no lighter than the air around them.
F=(MV2)/R Where F is centripetal force, M is the mass of the object, V is the straight-line velocity of the object and R is the radius of the circle it is travelling in.
The net force is always directly toward the center of the circle.