Kinematics (a little more difficult then I am used to)

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The discussion revolves around a physics problem involving two balls, A and B, where ball A is released from 40 ft and ball B is thrown upward from 5 ft. The key point is that both balls pass each other at 20 ft, and the goal is to determine the initial speed of ball B. The user calculates the time it takes for ball A to reach 20 ft as approximately 1.115 seconds, which is the same time ball B takes to reach that height. The user struggles to express the final calculations algebraically but is guided to use the appropriate kinematic equations to find the initial velocity of ball B. The conversation highlights the application of kinematic equations in solving motion problems.
Roger Wilco
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Homework Statement



Ball A is released from rest at height of 40 ft at the same time Ball B is thrown upward from 5 ft off the ground.

If the Balls pass one another at 20 ft above the ground, determine the speed at which ball B was thrown upward.



Homework Equations


v=v_o+at
v^2=v_i^2+2a(y-y_i)
y-y_i=v_it+.5at^2



The Attempt at a Solution



I have used the information about ball A to determine the time it takes A to reach a height of 20 ft:
Choosing down as positive, 20=16.1t^2

thus, t=1.115 s. Now this must be the same time that B reaches 20 ft. I know that g is pulling down on it and it must cover a vertical distance of 15 ft in 1.114 s.

I am just getting stuck in trying to write that last sentence algebraically.

~RW
 
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You're on the right track. You are looking for the initial velocity of ball B. We know the displacement (15ft), we know the acceleration (-32.2 ft/(s^2)) and you found the time it takes to travel this distance (1.115 s) it takes to reach that value. Which equation would you chose, to solve for Vinitial?
 
Oh good grief. I feel like such a mutton-head (is mutton-head hyphenated?).

Thanks Midy,
~RW
 

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