Fundamental of Physics 10th Edition Problem 52

AI Thread Summary
The discussion revolves around a physics problem involving a bolt dropped from a bridge, focusing on calculating the time to fall the last 20% of its distance and the corresponding speeds. The correct time for the last 20% of the fall is determined to be 0.436 seconds. To find the speeds at the beginning and end of this segment, additional kinematic equations are necessary, which the participants emphasize. The conversation highlights the need for understanding these equations to solve for velocity in free fall scenarios. Overall, the thread underscores the importance of mastering kinematic equations for solving physics problems related to motion under gravity.
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Homework Statement



A bolt is dropped from a bridge under construction, falling 83 m to the valley below the bridge. (a) How much time does it take to pass through the last 20 % of its fall? What is its speed (b) when it begins that last 20 % of its fall and (c) just before it reaches the ground?

Homework Equations





The Attempt at a Solution



For part (a) I got the correct answer of .436 seconds by doing 83/4.9=16.94, sqrt16.94=4.12
83 x .20 = 16.6
83-16.6=66.4
66.4/4.9=13.55
sqrt13.55=3.68
4.12-3.68=.436

That answer was correct but I need parts (b) and (c)
 
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Knowing the time something is falling under gravity, how do you calculate the velocity? You've learned one equation of kinematics; there's a couple more equations you need to learn as well.
 
I'm sorry but that really doesn't help my understanding of how to do it.
 
It means there are some other equations that you need to learn:

http://mathematicsi.com/deriving-suvat-equations-motion/
 
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