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I am in the process of prototyping a game and I have problem with derivation of a motion equation.

There is a ball that spawns on the screen with an initial velocity. It has a fixed target (fixed distance). There is fixed acceleration (deceleration in this case). So the ball slows down while reaching the destination.

I m trying to compute this:

What should the initial velocity (u) of the ball be, if I want its final velocity to be 25% of its initial velocity (u / 4) when it reaches (for the first time) to the target? The acceleration, distance and time are constants!

Ideally, I would want to have the ratio of the final velocity to the initial velocity a variable but I think I can find a way to make it work once I figure out how to derive the simple case.

To summarize:

Distance: Constant
Time: Constant
Acceleration: Constant
Initial velocity: u
Final velocity at destination: u / 4

How to solve for u? How can it be generalized for different final velocity ratios?

Thanks for any input or pointers.

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1 Answer 1

up vote 0 down vote accepted

I guess the problem you're having is because you're overconstraining your system. From the variation of speed in time, v = v0 + at, using acceleration and time as constants, you have

u/4 = u + AT
-3/4*u = AT
u = -4/3*AT

But that may disagree with what you would find giving distance as a constant, from v^2 = v0^2 + 2ad (Torricelli's equation)

(u/4)^2 - u^2 = 2AD
-15/16*u^2 = 2AD
u = sqrt(-32/15*AD)

In summary, you can't specify all three as constants. Of course, you can have what you want if you specify an acceleration variating with time (the variation of acceleration is called jerk), but I'll let you derive the equations needed :)

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