Centripetal acceleration/ motion question

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Homework Help Overview

The discussion revolves around calculating the speed of an object as it exits a half-circle ramp, with a focus on the application of centripetal acceleration and conservation principles in physics.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to use a linear acceleration formula to find the final velocity, while others question the appropriateness of this approach and suggest considering conservation of energy instead.

Discussion Status

Participants are exploring different concepts related to the problem, with some guidance provided on the relevance of conservation of energy. There is an ongoing exchange of ideas, but no consensus has been reached regarding the correct approach.

Contextual Notes

There is a mention of the original poster's educational level, indicating they are in Grade 12, which may influence their familiarity with certain physics concepts.

chudzoik
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I am trying to calculate the speed of an object at the point that it flys off the half circle ramp, and I was wondering if it would be correct to use the formula v2=v20+2aΔx to calculate the final velocity of the object as it exits the half circle thing.
 

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welcome to pf!

hi chudzoi! welcome to pf! :smile:

(what does centripetal acceleration have to do with this? :confused:)
chudzoik said:
… I was wondering if it would be correct to use the formula v2=v20+2aΔx to calculate the final velocity of the object as it exits the half circle thing.

that's a linear acceleration formula, isn't it?

hint: always check first whether you can use a conservation equation :wink:
 
I honestly have no idea what your hint means :-p
Can you explain further about what formula I'm supposed to use?
 
do you know any equations called "conservation of (something)"? :smile:

(i may have gone to bed by the time you answer :zzz:)
 
Well I know conservation of momentum, but I don't know how it would apply to my question.
 
aha!

you'll need to look up conservation of energy :smile:
 
Is that the formula with 1/2 mv2 and mgh in it? I looked it up and it came up with stuff like Δ(U+K) = 0 and U + K = E which don't look familiar to me at all. I'm in Grade 12 right now, so should I have learned it?
 
yeah that's what you'll be wanting to use for this problem, it's the same idea as conservation of momentum: initial = final
 

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