Calculating Jet-Missile Catchup Time

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To calculate the time it takes for the missile to catch up to the jet, one must set the distance equations for both the jet and the missile equal to each other. The jet travels at a constant speed of 240 m/s, while the missile, launched from rest with an acceleration of 40 m/s², needs to be analyzed using kinematic equations. The solution involves determining the time at which both distances are equal, leading to a quadratic equation. The problem assumes the jet is flying at a low elevation, directly above the missile battery. This approach will yield the time required for the missile to intercept the jet.
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Homework Statement



A jet flys at a constant speed of 240 m/s past an antiaircraft missile battery. A time 2.326e+01 s later, an intercepter missile is launched (from rest). The missile has an acceleration of 40 m/s^2.

How much time (from the instant the missile is launched) does it take the missile to catch up to the jet?

Homework Equations



The Attempt at a Solution



I honestly don't even know where to begin. I believe i will at some point have a quadratic formula to work with, is this correct?? I think i need to find where the distances are equal then find the time.
 
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You don't actually have to find the distance; but for the plane, you should be able to use an equation for distance, in terms of time, and for the missile, you'll also need an equation for distance in terms of time - an equation that includes acceleration. By setting these two equal to each other, you can solve for time, and you're correct, it should be a quadratic equation.

I think the problem wants you to assume that the jet flies just above the missile battery (not at some high elevation such as 8000 meters).
 
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