Solving Kinematics: Finding Release Height Above Window

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A water balloon takes 0.22 seconds to cross a 130 cm high window, and the problem is to determine the height from which it was dropped. The initial attempt calculated the velocity incorrectly by using average speed instead of accounting for acceleration due to gravity. The correct approach involves solving for the initial velocity using kinematic equations. After re-evaluating the calculations, the correct height above the window was found to be 0.48 meters. The discussion highlights the importance of using appropriate kinematic equations in solving motion problems.
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Homework Statement




A water balloon takes .22 s to cross the 130 cm high window, from what height above the top of the window was it dropped?



The Attempt at a Solution



I'm using:

v^2 = vo^2 + 2a(x - xo)

v = distance/time
v = 1.30 m / .22 s = 5.91 m/s

(5.91 m/s)^2 = 0 + 2(9.8 m/s^2)(x)
x = 1.78 m from release to bottom of window

1.78 m - 1.3 m = distance of release from top of window

.48 m


I'm doing something wrong since the available answers aren't .48m...and it is something simple.
 
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You can't simply use distance divided by time to get the velocity at the bottom of the window, as the balloon is being accelerated due to the earth. What other equation could you apply?
 
Pi-Bond said:
You can't simply use distance divided by time to get the velocity at the bottom of the window, as the balloon is being accelerated due to the earth. What other equation could you apply?

nevermind i got it.
 
Last edited:
Right, you can solve for v0 from that equation, and use that to obtain the distance above the top of the window the ball was thrown from.
 
Pi-Bond said:
Right, you can solve for v0 from that equation, and use that to obtain the distance above the top of the window the ball was thrown from.

yeah i see what i did...thanks.
 
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