Kinetic/Potential Energy Problem

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SUMMARY

The discussion revolves around calculating the potential energy (PE) and kinetic energy (KE) of a cliff diver named Sherlock, who has a mass of 90 kg and is positioned 20 meters above sea level. The potential energy at the top of the cliff is determined to be 17,640 J, which equals the kinetic energy at that point due to the conservation of energy principle, assuming no air resistance. The participants also explore how to find the point in the dive where the kinetic energy equals 450 J and the speed at which Sherlock enters the water.

PREREQUISITES
  • Understanding of gravitational potential energy (PE = mgh)
  • Knowledge of kinetic energy formula (KE = 1/2 mv^2)
  • Familiarity with the conservation of energy principle
  • Basic algebra skills for solving equations
NEXT STEPS
  • Calculate the speed of Sherlock just before entering the water using the kinetic energy formula.
  • Explore the concept of energy conservation in free-fall scenarios.
  • Research the effects of air resistance on falling objects.
  • Learn about the relationship between height and potential energy in gravitational fields.
USEFUL FOR

Students studying physics, educators teaching energy concepts, and anyone interested in the mechanics of free-fall and energy transformations.

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Homework Statement



Given
mass = 90kg
distance = 20m above sea level.

Find his potential and kinetic energy at the top of the cliff, at what point in his leap is his kinetic energy 450 J and at what speed does he enter the water?

Homework Equations





The Attempt at a Solution



I can solve for PE and KE at the top of the cliff. Have trouble calculating when his KE = 450 J and his velocity entering the water.
 
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Hello, mathpat. Could you please state the problem exactly as given to you? It's not clear what's going on at the top of the cliff initially.
 
sure it's as follows:

Sherlock, a cliff diver, is preparing for his final cliff jump into the ocean. He has a mass of 90 kg and stands on a cliff 20m above the sea. What is his PE and KE at the top of the cliff? At what point in his leap is his KE 450J? At what speed does he enter the water?
 
OK. What did you get for the initial KE and PE at the top of the cliff?

At any point during the fall, what quantity is the same as at the top of the cliff?
 
I got 17640J for PE. And that would also equal the KE at the top of the cliff?
 
OK for the PE. Why would the KE equal the PE?
 
Due to no resistance or friction from a free-fall position
 
mathpat said:
Due to no resistance or friction from a free-fall position

I don't follow. What determines the KE of an object?
 
whether the particle or object is moving. Wow ok lol. So the KE = 0 J at the top of the cliff.
 
  • #10
mathpat said:
So the KE = 0 J at the top of the cliff.

Yes. Since the problem didn't state whether or not Sherlock jumps from the cliff with an initial velocity, I think you are going to have to assume that he doesn't jump. He just falls from rest.

So, good. His initial KE is zero.

Can you think of a way to find the point where the KE is 450 J?
 
  • #11
I'm seriously stumped when it comes to that part. I know I can't plug in that value in KE = 1/2 mv^2 because that would not give me a point.
 
  • #12
mathpat said:
I know I can't plug in that value in KE = 1/2 mv^2 because that would not give me a point.

Right, you already know that KE is 450 J at the point you are interested in. So, you don't need to calculate KE there. You are dealing with energy concepts here. Energy is really important due to a very basic principle that you have studied. Can you think of what that principle is?
 

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