Centripetal Acceleration definition help

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Centripetal acceleration is defined as the acceleration experienced by an object moving in a circular path, directed towards the center of the circle. The magnitude of centripetal acceleration is not equal to the sum of all forces acting on the object, but rather to the net force component that acts perpendicular to the object's path. This net force is responsible for maintaining circular motion and is often referred to as centripetal force, calculated using the formulas m v^2 / r or m ω^2 r. The tension in the string can be determined by analyzing the forces acting on the object, particularly the component that provides the necessary centripetal force. Understanding these concepts clarifies the relationship between forces and acceleration in circular motion.
oneplusone
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Hello, my textbook says that the magnitude
of centripetal acceleration is equal to the sum of the forces acting on that object.
(this is in regard to an object in a circular path, by a string. See https://upload.wikimedia.org/wikipedia/commons/thumb/c/c9/Centripetal_force_diagram.svg/220px-Centripetal_force_diagram.svg.png for an example)

I was wondering why is this so? To me, it doesn't make sense that they are equal in magnitude, since the forces are perpendicular.

Please help.
 
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oneplusone said:
My textbook says that the magnitude of centripetal acceleration is equal to the sum of the forces acting on that object.
Only the sum of forces component that is perpendicular to the path of an object results in centripetal acceleration. The sum of forces component in the direction of the path of an object results in tangental acceleration.
 
So could you please briefly describe how will you solve for Tension? generically?
 
oneplusone said:
So could you please briefly describe how will you solve for Tension? generically?
The link to the diagram isn't working for me. In what direction is the string rotating, horizontally or vertically or ... ?
 
Looking at that diagram, there are no other forces acting on the mass other than centripetal force, which equals m v^2 / r or m ω^2 r. The centripetal acceleration would be v^2 / r or ω^2 r.
 
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