Finding speed of an object when it hits the ground, after free fall.

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Homework Help Overview

The discussion revolves around calculating the speed of a manhole cover when it impacts the ground after being launched to a height of 50 feet. The subject area includes concepts of free fall and kinematics, particularly focusing on the effects of gravity on an object in motion.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants explore different equations related to free fall, questioning the necessity of time in the calculations. Some suggest using kinematic equations to relate distance, acceleration, and velocity.

Discussion Status

The discussion is active, with participants offering various equations and methods to approach the problem. There is a mix of opinions on whether time is needed for the calculations, indicating an exploration of different interpretations of the problem.

Contextual Notes

Participants are working with specific values, such as the height of 15.24 meters and the acceleration due to gravity at 9.8 m/s². There is some uncertainty regarding the best approach to take, particularly in relation to the use of time in the calculations.

austin944
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Suppose a 136 kg manhole cover is launched 50 feet in the air. What is the speed of the manhole cover when it hits the ground on its descent, in m/s and mph?

I converted 50 feet to 15.24 meters, but I do not know what equation to use here. I understand that acceleration due to gravity is 9.8m/s^2. I just don't know how to find the speed when I am only given acceleration due to gravity and distance/height.
 
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You can use distance and gravity to find out how long it takes the manhole cover to hit the ground, and then use another equation to turn time and distance into velocity.
 
I'd pretty much already determined that, but you've still not gotten me any closer to solving the problem. What equation do you suggest I use for finding time, if that's even what I need to do in this problem?
 
Actually, I was wrong you don't need time at all:

v_f^2 = v_i^2 + 2ad

and, of course, vi will be 0.
 
Actually, you were right; I did need time. It's the equation t = Square root of (2y/g). I just plugged in 15.24 meters for y, the height, to solve for t. After solving for t, I used the equation, vf = initial velocity + (a)(t) to solve for final velocity. Thanks for the help.
 

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