Uniform Circular Motion: Centripital Acceleration vs. Acceleration

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Homework Help Overview

The discussion revolves around the concepts of acceleration in the context of uniform circular motion, specifically differentiating between general acceleration and centripetal acceleration. Participants are exploring the terminology and mathematical relationships involved in these concepts.

Discussion Character

  • Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster seeks clarification on the difference between two formulas for acceleration in uniform circular motion. Some participants discuss the equivalence of the formulas and provide reasoning based on the relationship between speed, distance, and time.

Discussion Status

Participants are actively engaging with the concepts, with some expressing a need to explore the details further. There is a recognition of the equivalence of the two formulas for acceleration, and some participants have confirmed their understanding of this relationship.

Contextual Notes

The original poster mentions being new to physics and taking their first university physics class, indicating a potential lack of familiarity with the terminology and concepts being discussed.

Chele
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I am very new to physics and am taking a my first University Physics class. This is not a call for a problem to be solved, but a clarification on terminology.

In solving problems for uniform circular motion, some problems call for the acceleration of the object (a=v^2/r) and others the centripetal or instantanious acceleration (a=4pi^2r/T^2).

Can you please attempt to explain, in layman's terms, the difference between the two references to acceleration?

Thanks for your assistance.
 
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Chele said:
In solving problems for uniform circular motion, some problems call for the acceleration of the object (a=v^2/r) and others the centripetal or instantanious acceleration (a=4pi^2r/T^2).
The two formulas are equivalent. (Express the speed in terms of circumference over period and you'll see for yourself.)

For uniform circular motion, the acceleration is centripetal. (Centripetal just means "towards the center".)
 
Wow- I'll need to look at that in further detail...
Thanks for your help!
 
Chele said:
Wow- I'll need to look at that in further detail...
Thanks for your help!

Indeed, the two are equivalent for UCM. This can be seen easily if you recall that for constant speed, you may use v= distance/time. If you wait for the particle to go through a full circle, it will have covered a distance 2 Pi r, and the time elapsed will be the period T.
So

v_{ucm} = \frac{2 \pi r}{T}

Using this formula it is simple to prove that the two equations for acceleration you gave are equal.
 
Okay, thanks. I worked it out and it is exactly the same. Not sure why I didn't see it before. Thanks guys!
 

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