I think you are looking for torque.
The cause of rotational motion is a force towards a fixed point called centre of curvature. The outcome of rotational motion is the tendency of the rotating body to move radially- (eg) outward shifting of objects in a car as it takes a curved path.
The rotational analog of force in linear motion is "Torque".
Torque
ac=ap
Not exactly,torque is the force that affects rotational motion; the greater the torque, the greater the change in rotational motion. It is always specified with regard to the axis of rotation.
The cause of rotational motion is a force towards a fixed point called centre of curvature. The outcome of rotational motion is the tendency of the rotating body to move radially- (eg) outward shifting of objects in a car as it takes a curved path.
The rotational analog of force in linear motion is "Torque".
Two forces associated with rotational motion are centripetal force and centrifugal force.
When the force is centrifugal or rotational force
Torque
Centrifugal force and centripetal force are associated with rotational motion. Centrifugal force draws a rotating body away from the center of rotation. Centripetal force is usually the cause of circular motion. Answer2: The curl force is associated with rotational motion, F =cDelxP = 1RxP cp/r sin(P) = 1RxP ma sin(P). Rotational motion is a vector and the rotational force is a vector, 1RxP.
ac=ap
it's centrifugal force..
Torque
YES
Not exactly,torque is the force that affects rotational motion; the greater the torque, the greater the change in rotational motion. It is always specified with regard to the axis of rotation.
it is when something is: twist; turn; wring; coil; twirl