The source of the force that causes centripetal acceleration in the case of a ball tied with a string moving in a circular path uniform circular motion is the tension force of the string, Physics is one of the most important subjects concerned with studying everything related to force, speed and other scientific terms that scientists and researchers study to clarify the laws of nature and ways to deal with them.

Centripetal acceleration concept

It is defined as that acceleration caused by the body in a circular path, as the velocity is a vector quantity that has magnitude and direction. The centrality is known by the symbol ac, and it is an amount equal to the square of the body’s velocity along the curve divided by the distance to give us this law ac = v2 /r [1].

See also: When the holding force equals the gravitational force, we get to

The source of the force that causes centripetal acceleration in the case of a ball attached to a string moving in a circular path uniform circular motion is the tension force of the string

Force is one of the terms searched by a large group of scholars regarding clarifying its relationship to everything related to the mass of bodies and the shape of the hole, whether they are regular or irregular, in addition to the form of movement that revolves in certain paths. Force is called other concepts according to the source from which it was issued, which affects the movement Objects are like a ball tied in a thread and are moved in certain paths. Therefore, the search for the answer to this question through search engines is many, so the answer is as follows:

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At the conclusion of this article, the answer to a question was identified The source of the force that causes centripetal acceleration in the case of a ball attached to a string moving in a circular path uniform circular motion is the tension force of the string Which represents one of the important information in physics that is useful to learners in dealing with physical components and calculating them with laws reached by physicists.

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    Britannica.com , centripetal acceleration , 02/18/2022