Energy and roller coaster question

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enapper
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A roller coaster starts at height (h). It goes down this hill and then goes up a second hill that is at a height of 28.5 m at a speed of 15.8 m/s. How high was the initial hill?


Given equations:
U=mgh
KE=1/2mv^2
W=Fd
P=W/T



Honestly, we've never done a problem like this before and I'm unsure how to solve it. I know potential energy is at it's highest point at the peak of the first hill and that energy is always conserved, so I said mgh(1)-1/2mv^2(1)=mgh(2)-1/2mv^2, but I didn't get a logical answer. Can anyone help me?
 
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welcome to pf!

hi enapper! welcome to pf! :smile:

(try using the X2 and X2 icons just above the Reply box :wink:)

your formula should work …

show us your full calculations, and then we'll see what went wrong :smile:
 
Thanks!

mgh=mgh(2)-1/2mv^2(2)

I canceled out the mass because it should be the same throughout the equation and no mass is given, leaving me with:
gh=gh(sub2)-1/2v^2(sub2)

(9.8)(h)=(9.8)(28.5)-(1/2)(15.8)^2

9.8h=279.3-124.82

h=154.48/9.8

h=15.76

This answer seems illogical, though, because normally the cart would not be able to exceed the initial height, and the second hill is much higher than 15.76m.
 
That makes sense. "The whole is equal to the sum of the parts" sort of thing.
Thanks a million!