# Centrifugal force

Centrifugal describes an object as it flies outward along a curved path, away from the center of the curve.

## Centrifugal force driving

But explaining the motion of the ball does not require that we imagine or dream up the existence of an outward or centrifugal force. This notion of an outward force is merely fictitious. The sensation of being thrown outward is attributable to the idea of inertia, rather than the idea of force. They do not fall out due to inertia and centripetal force. Of the two, centrifugal is the more needed but also more likely to be used incorrectly. Speaking of merry-go-round, they just don't put these things in parks anymore do they? The centrifuge is used to separate particles suspended in fluid by spinning the test tubes at high speeds. If the string breaks, the stone, because of inertia , will keep on going in a straight line tangent to its previous circular path; it does not move in the outward direction as it would if the centrifugal force were real. It does, however, have a useful role in some physics. A constant magnitude centripetal force that is always perpendicular to the direction of motion will make the object move in a circle. In this case there is a centripetal force, it would be the frictional force between the tires and the road. The major difference between the two is their direction, which is also related to the frame of reference for each force. It's a no brainer - the ball moves straight while the whiteboard turns. A couple examples of each type of force may help one see the difference between the two. No problem.

One example is related to the design of roads to prevent skidding, and to improve traction on curves and access ramps of highways. When a rocket is first launched, it is so laden with fuel and oxidizer that it can barely move.

A centrifugal or outward net force simply does not exist.

One day it may even provide artificial gravity for space ships and space stations. If an airborne camera had collected the motion on film from above and we could watch the instant replay, then it would be a no-brainer - the car turned left and your body kept going straight.

They make a good point. If the boy tries to roll the ball straight across to the girl, the ball will indeed still go in a straight line assume small frictional forces as seen from someone not on the merry-go-round. Evaluate Your Own Experiences So why then is this student misconception of an outward or centrifugal force so prevalent and so stubbornly adhered to?

If you were the tennis ball in the first example above, then you might feel like you were being pushed outwards. On the other hand, centripetal force is a true force that will offset the centrifugal "force" stopping the motion of the object from its flying outward, keeping it in motion instead at a consistent speed along the curved or circular path.

If you can answer the first of these questions with "No" then you have a chance. Centripetal force is defined as, "the force that is necessary to keep an object moving in a curved path and that is directed inward toward the center of rotation," while centrifugal force is defined as "the apparent force that is felt by an object moving in a curved path that acts outwardly away from the center of rotation," according to Merriam Webster Dictionary.

## Centrifugal force

This causes the acceleration toward the end of the boost phase to increase to several times that of normal gravity. No physical object could ever be identified that was pushing you outwards. An example for centripetal force is gravity which allows the moon to stay in its orbit. One common use of this technology is for preparing blood samples for analysis. Centripetal force is defined as, "the force that is necessary to keep an object moving in a curved path and that is directed inward toward the center of rotation," while centrifugal force is defined as "the apparent force that is felt by an object moving in a curved path that acts outwardly away from the center of rotation," according to Merriam Webster Dictionary. However, if you are part of the rotating system, you experience an apparent centrifugal force pushing you away from the center of the circle, even though what you are actually feeling is the inward centripetal force that is keeping you from literally going off on a tangent. The inward net force accelerates the ball inward, causing it to deviate from its straight-line path that is directed tangent to the circle. One day it may even provide artificial gravity for space ships and space stations. Finally, some day centrifugal force may provide artificial gravity for space stations and space ships. In a frame of reference attached to the whirling stone, the stone is at rest; to obtain a balanced force system, the outward-acting centrifugal force must be included. The major difference between the two is their direction, which is also related to the frame of reference for each force.

The ball will not make it to the girl because she will rotate out of the way. Perhaps like all misconceptions, the notion of a centrifugal force as lodged in a person's head has a particularly lengthy history.

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