Force and potential energy function

AI Thread Summary
The discussion revolves around calculating the potential energy function U(x) for a particle influenced by a conservative force defined as F = (-Ax + Bx^5) N. In part (a), the user attempted to derive U(x) by taking the partial derivative but received incorrect feedback, indicating a need for integration instead. For part (b), they calculated the change in potential energy as -977 J and mistakenly concluded that the change in kinetic energy would be +977 J, but later realized they were approaching the problem incorrectly. The main focus is on correctly deriving the potential energy function and understanding the relationship between potential and kinetic energy changes. The user seeks clarification on the correct approach to solve part (a).
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Homework Statement



A single conservative force acting on a particle within a system varies as = (− Ax + Bx5) N, where A and B are constants, is in Newtons, and x is in meters.

(a) Calculate the potential energy function U(x) associated with this force, taking U = 0 at x = 0. (Use any variable or symbol stated above as necessary.)
U(x) =



(b) Find the change in potential energy and change in kinetic energy as the particle moves from x = 1.90 m to x = 3.80 m. (Use any variable or symbol stated above as necessary.)



Homework Equations



F = -∇U



The Attempt at a Solution



for part a i took the partial derivative with respect to x in order to get the potential energy function in which i got the answer: U(x) = (A - 5Bx^4)i the system said it was wrong though.


for part b i took my equation in part a to find the change in potential energy and got -977J
and i figured if the change in potential was lost 977 J then the change in kinetic energy would have to be gaining 977 Joules, but i was wrong again. please help
 
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Nvm i was doing it backwards and should have been integrating sorry guys
 
what was the answer

what was the answer to part A
 

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