Centripetal force acts towards the center of the circle of motion.
radially inward
The Centripetal Force is the one that pulls an object that travels on a given path about a point in the direction of this point. This force has been stated by Isaac newton.
An object in orbit needs a centripetal force to keep it moving in a circular path. Gravity provides this centripetal force, pulling the object towards the center of the orbit. Without this force, the object would continue in a straight line tangent to the orbit.
Centripetal force acts on an object in circular motion because of the object's inertia, which makes it want to continue moving in a straight line. The force pulls the object towards the center of the circle, keeping it in its circular path.
1). If there is no force on the object, then it keeps moving in a straight line. If you want it's path to bend away from a straight line, then you need a force in order to accomplish that. 2). The force acts in the direction that bends the path away from a straight line. In other words, in the direction in which the path curves. For a closed orbit, the force has to be toward the center, or at least close to it. Conveniently, that's where the big massive body happens to be, which sets up a nice, two-way gravitational force between the central body and the orbiting body. Gravity is the centripetal force, and it always points both ways between the two bodies, trying to draw them together.
Centripetal Force, it always points to the center of the circle.
radially inward
The Centripetal force keeps a object moving in a circle and its force and acceleration are directed toward the center of the circle
The Centripetal Force is the one that pulls an object that travels on a given path about a point in the direction of this point. This force has been stated by Isaac newton.
An object in orbit needs a centripetal force to keep it moving in a circular path. Gravity provides this centripetal force, pulling the object towards the center of the orbit. Without this force, the object would continue in a straight line tangent to the orbit.
Centripetal force acts on an object in circular motion because of the object's inertia, which makes it want to continue moving in a straight line. The force pulls the object towards the center of the circle, keeping it in its circular path.
Normal force can act on an object
1). If there is no force on the object, then it keeps moving in a straight line. If you want it's path to bend away from a straight line, then you need a force in order to accomplish that. 2). The force acts in the direction that bends the path away from a straight line. In other words, in the direction in which the path curves. For a closed orbit, the force has to be toward the center, or at least close to it. Conveniently, that's where the big massive body happens to be, which sets up a nice, two-way gravitational force between the central body and the orbiting body. Gravity is the centripetal force, and it always points both ways between the two bodies, trying to draw them together.
No, centripetal and centrifugal forces are not action-reaction pairs. Centripetal force acts towards the center of a circular path, keeping an object in uniform circular motion, while centrifugal force is a fictitious force that appears to act outward on the object. They arise due to the inertia of the object in motion and the frame of reference chosen.
In circular motion, centripetal force is the inward force that keeps an object moving in a curved path, while centrifugal force is the outward force that appears to push an object away from the center of rotation. These forces are equal in magnitude but act in opposite directions, with centripetal force keeping the object in its circular path and centrifugal force being a perceived force due to inertia.
Centrifugal force is the outward force experienced by an object moving in a circular path, while centripetal force is the inward force that keeps the object moving in that path. In physics, these forces are equal in magnitude but act in opposite directions, with centripetal force being responsible for maintaining the object's circular motion and centrifugal force being a result of inertia.
Any part of a force that does not act in the direction of an object's motion does not contribute to the object's speed or change its velocity. This component of force perpendicular to the direction of motion only affects the object's direction or causes it to change its path.