How Fast Should a Rock Be Thrown to Hit a Runner at 93 Yards?

AI Thread Summary
To determine the initial velocity needed for a rock to hit a runner at 93 yards, the first runner accelerates to cover the distance in 8 seconds, while the second runner throws the rock after a 3-second delay. The rock must travel horizontally for 5 seconds to reach the finish line simultaneously with the runner. The horizontal velocity is calculated as 93 yards divided by 5 seconds, resulting in 18.6 yards per second. A vertical component of velocity is also needed, but the vertical distance to the runner's head is unspecified, complicating the calculations. The discussion highlights the challenge of solving for the vertical component without knowing the height from which the rock is thrown.
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I am stumped big time!

Two runners start at the same point on a straight track. The first runs with a constant acceleration so that he runs 93 yards in 8 seconds. The second runner waits 3 seconds and then throws a rock at his opponent's head. If the head and the rock are at the same level form the grownd, what must the inital magnitude of the velocity be if the rock is to hit the head just at the 93 yard tape?
 
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What distance does the rock need to cover in how much time?
 
The same distance as the runner who actually runs covers but the time is unknown
 
Is it? The stone must hit the runner as he reaches the finish line. You know the time that this happens, so can you say what the time that the stones takes in the air is?
 
the stone takes 5 secs in the air
 
Yup, so now can you set up a relevant equation?
 
how do you get the vertical component of velcocity.

you get the horizontal component of velocity with what you have - 93/5 = 18.6 yrds/sec
 
For the horizontal component, you have used the equation d=ut+at2/2, where u is the initial velocity. Set up a similar equation in the y direction; you know d, a and t, so you can solve for uy.
 
the vertical height is not given. unless we use zero
then we get 24.5
 
  • #10
Please can you explain this because it makes no sense. We don't know the vertical distance
 

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