Solving for potential energy after time t.

AI Thread Summary
The discussion focuses on calculating the potential energy of a stone dropped from an 80m building after t seconds. The potential energy (PE) is derived using the formula PE = mgh, where h is the height fallen. The participant initially calculates h as (1/2)gt^2, leading to PE = 10t^2. They clarify that potential energy is zero at the moment of release and maximum at the building's height. The final understanding emphasizes the relationship between the height fallen and the remaining distance to the ground.
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Homework Statement


A stone of mass 0.2kg is dropped from the top of a building 80m high. After t seconds it has fallen x meters and has a velocity of v. What is the potential energy of the stone t seconds later

Homework Equations


The answer is 2(80 - x) = 160 - 10t^2

Using suvat: s = ut + (1/2)at^2

The Attempt at a Solution


I started with PE = mgh
PE = 0.2 * 10 * h
PE = 2h

Then I figured h = (1/2)*10*t^2
or h = 5t^2

So now I have

PE = 10t^2

Not sure if I'm headed in the right direction or not.
 
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blipped said:
So now I have

PE = 10t^2
That gives PE=0 at the instant of dropping. Where should PE be 0 and where should it be maximum?
 
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blipped said:
A stone of mass 0.2kg is dropped from the top of a building 80m high.
It is coming downwards.
blipped said:
s = ut + (1/2)at^2
What is s?
blipped said:
PE = mgh
What is h?
Are they both same in this problem?
 
cnh1995 said:
That gives PE=0 at the instant of dropping. Where should PE be 0 and where should it be maximum?

I got it, or at least I understand the answer now. 80 - (80 - x) gives the remaining distance with regards to x, and this equal to the same measurement given (1/2)(g)t^2. Set them equal and shuffle around a bit. Thanks
 
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blipped said:
I got it, or at least I understand the answer now. 80 - (80 - x) gives the remaining distance with regards to x, and this equal to the same measurement given (1/2)(g)t^2. Set them equal and shuffle around a bit. Thanks
Right.
x=80-h.
 

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