Maximum Height of Dropped Package in Helicopter Accident: 1279 meters

AI Thread Summary
A passenger drops a package from a helicopter ascending at 28 m/s, and it takes 19 seconds to reach the ground. The initial calculation for the height of the helicopter at the drop was determined to be 1237 meters, but the maximum height of the package above the ground is actually 1279 meters. The key to solving this is recognizing that the package continues to ascend for a brief period before gravity causes it to decelerate to zero velocity. The correct approach involves using kinematic equations to account for the initial upward velocity and the time it takes to reach maximum height. Ultimately, the discussion emphasizes the importance of considering both the initial velocity and the effects of gravity to accurately determine the maximum height.
Lucretius
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A passenger in a helicopter traveling upwards at 28 m/s accidentally drops a package out the window. If it takes 19 seconds to reach the ground, how high to the nearest meter was the helicopter when the package was dropped?

The answer I got for this is: 1237 (to the nearest meter)

This is not my problem however, the next question is, and it reads:

To the nearest meter what was the maximum height of the package above the ground in the previous problem?

I thought maybe I would use the distance formula again, with x=v0(t)+1/2at^2

The number I get isn't right…the answer is 1279.
 
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Well since the helicopter was traveling upwards, I would say the maximum height would be when the package was dropped. The helicopter was moving at a constant speed, meaning no acceleration. So once the package was released, the only force acting on it was gravity, making it head downward immediately.

That's my reasoning.
 
Remember that the package was traveling upwards at 28 m/s (this was initial velocity). So when the package is dropped, it still had some upwards motion. I need to figure out the distance covered from v=28m/s to v=0.
 
Ok. Sorry it's late. Use the kinematic equation you listed in your OP. Just make sure that you include direction, because the initial velocity and the acceleration are in different directions. It seems straightfoward from there.
 
What numbers would I be plugging in? If I plug in the 28, 19, and 9.8 I just get my first answer: 1237. 1237=28(19)-1/2(9.8)(19^2)

The answer however, is 1279.
 
Lucretius said:
What numbers would I be plugging in? If I plug in the 28, 19, and 9.8 I just get my first answer: 1237. 1237=28(19)-1/2(9.8)(19^2)
Nope. That is wrong. Why you choose t = 19s?
You know the plane is 1237 m above the ground, when the package is dropped.
The package will reach its maximum height when its velocity is 0. Because the package's initial velocity is 28 m / s. And it decelerates to 0 m / s. After that it will start to fall down. So when the package's velocity is 0, it reaches its max height.
How long does it take for the package to decelerate to 0 m / s?
Viet Dao,
 
Last edited:
Oh, I get it now!

First I use v=v0+at, and find T=~2.9

then I reuse x=28(2.9)-1/2(9.8)(2.9^2). X=39.99999, aka 40. So I get 1277. I guess an error of 2m is acceptable.
 

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