Relationship between work and potential energy

AI Thread Summary
The discussion revolves around calculating potential energy and work done by non-conservative forces on a particle. Initially, the particle has a kinetic energy of 35.5 J and potential energy of 8.16 J, totaling 43.66 J. At a later time, with a kinetic energy of 9.38 J and potential energy of 6.95 J, the total mechanical energy drops to 16.33 J. The difference of -27.33 J indicates that work done by non-conservative forces is negative, reflecting energy lost from the system. Understanding the relationship between work and energy is crucial for solving these types of problems.
lzh
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Homework Statement


At time ti, the kinetic energy of a particle is
35.5 J and its potential energy is 8.16 J.At
some later time tf , its kinetic energy is 9.38 J.
If only conservative forces act on the parti-
cle, what is its potential energy tf ? Answer
in units of J.
If the potential energy at time tf is 6.95 J,
what is the work done by the nonconservative
forces acting on the particle? Answer in units
of J.

Homework Equations


W=F*displacement*cos(theta)

The Attempt at a Solution


For the first part of the question, because there were only conservative forces, the sum of kinetic and potential must be same for both ti and tf. And i know that i have the right answer for that. But for the second part, where force isn't conserved, that would not be the case:
I CANNOT take the sum of 35.5 and 8.16 and subtract 6.95 like i did for the first part.
I don't think i completely understand the concept here, so i'd appreciate any help.
 
Last edited:
Physics news on Phys.org
You're missing a relationship between work and energy. W = ______

Fill in the blank and you should have your answer. Hint (you're not looking for W = Fd)
 
work is kinetic energy here, right?
 
and what else...
 
lzh said:
work is kinetic energy here, right?
No. When non-conservative forces act, total mechanical energy is not conserved. How much energy did you start with? What did you end up with? Can you explain this?
 
well, I started with 43.66J. But i don't know how much ends up being left.
 
wait... can this possibly be right?:
W=KE+PE
 
That's my line of thought...work done by non conservative forces= change in kinetic energy + change in potential energy
 
so does the answer to this part end up the same as first part of the question?
 
  • #10
lzh said:
so does the answer to this part end up the same as first part of the question?
No. The initial mechanical energy,
(KE + PE)_initial, is 43.66J. The final mechanical energy, (KE + PE)_final, is 16.33J. The difference between the two represents the change in the total mechanical energy of the system , which is, as stated above, equal to the work done by the non-conservative forces.
 
  • #11
would the change in mechanical energy be negative?
-27.33J in this case.
because +27.33J is wrong, according to my homework service
 
Last edited:
  • #12
Assuming you did the calculation right, the work should be negative.
 

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