the force that tends to make a moving bodies fly away to the center of rotation
I think you mean the centrifugal force. That force points outwards from the center of rotation.
Centripetal force works opposite tangential acceleration.
No, centrifugal force is the force that causes objects in rotation to move away form the center of rotation. The force that keeps objects moving in circular motion is called "centripetal force".
Centrifugal force (from Latin centrum, meaning "center", and fugere, meaning "to flee") represents the effects of inertia that arise in connection with rotation and which are experienced as an outward force away from the center of rotation
By applying the same force farther from the center of rotation.
the force that tends to make a moving bodies fly away to the center of rotation
I think you mean the centrifugal force. That force points outwards from the center of rotation.
Centripetal force works opposite tangential acceleration.
No, centrifugal force is the force that causes objects in rotation to move away form the center of rotation. The force that keeps objects moving in circular motion is called "centripetal force".
Centrifugal force (from Latin centrum, meaning "center", and fugere, meaning "to flee") represents the effects of inertia that arise in connection with rotation and which are experienced as an outward force away from the center of rotation
Centripetal force is a force that acts on a body moving in a circular path and is directed toward the center around which the body is moving. It is also known as center seeking force.
By applying the same force farther from the center of rotation.
Is a force that acts on a body moving in a circular path and is directed toward the center around which the body is moving.
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 Centripetal force keeps a object moving in a circle and its force and acceleration are directed toward the center of the circle
No. The force keeping a ball on a string moving in a circle is centripetal force, i.e. force pulling the ball to the center of the circle.
The magnitude of the Coriolis force is influenced by the speed of the object, the latitude of the object, and the Earth's rotation rate. Objects moving faster or situated at higher latitudes will experience a greater Coriolis force.