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so i have torpedos in my game and they start out at 0 meters per second and accelerate realistically. after so many seconds they stop accelerating and travel at a constant rate forward.

I have a distance to the target and I basically am trying to calculate lead time for autoaiming.

So given

Distance to target;

Acceleration (per second);

burn time (number of seconds before acceleration stops);

I need to basically determine I believe the average meters per second the projectile is travelling.

The only way I can see to do it is something like this.

        curdistance; //stores distance traveled per second
        currentspeed; //stores speed at a given second

        for(int timer = 1; curdistance < distanceToTarget;timer++)
        currentspeed = currentspeed + acceleration; 
        curdistance = curdistance + ( currentspeed);

    if(timer >= burnTime)
    acceleration = 0;


Now this works but it has 2 problems.

The burn time has to be an int or else the smaller the fraction the greater the number of runs to keep accuracy.

If i want a 4.2 burn time for example in order to keep the accuracy i have to run it 42 times and calculate for every 10th of a second.

Also the average could be off by quite a bit depending on how much it overshoots a target depending again on how precise the timer is.

if my projectile is going at 30 meters per second and it needs to go 121 meters it'll add another full second of travel before it goes ok you've gone to/past the target which will mean it will actualy be aiming as it were at a point 29 meters further than it really should.

The only way to combat this with this algorithm is to check more often every 10th or 100th of a second.

I feel like though there might be a math equation I don't know that lets me solve this precisely.

Any Help?

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closed as unclear what you're asking by woodchips, Dukeling, Mike, Liam, ryan1234 Jul 16 '13 at 16:56

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question.If this question can be reworded to fit the rules in the help center, please edit the question.

It's not clear to me what do you want to ultimate calculate (the sentence "I need to basically determine I believe the average meters per second the projectile is travelling" hints that you need to calculate speed instead of time). Do you want the time taken for the projectile to hit its target? –  Racso Jul 16 '13 at 13:24
As you describe it your movement happens in 2 parts. The first part is accelerated movement (with constant acceleration) and the second part is movement under constant velocity. All you need to do is calculate the travelling time for each of those separately and then sum it together. –  Ma3x Jul 16 '13 at 13:25
You need to be clearer about what you want to solve for here. Do you need to know distance and velocity as a function of time? I am sure that it can be done/solved, but it just isn't clear exactly what you want solved. Try to define it as a Function declaration that you need implemented. –  RBarryYoung Jul 16 '13 at 13:26
So this is not about programming, as if you knew the magic equation, you would be happy. Therefore, it is about physics, or at least mathematics, as if you understood numerical integration or even interpolation, again, you would be done. –  user85109 Jul 16 '13 at 13:32
Also I did consider posting this question on a physics forum but I want code. Most places (this included often) aren't going to help you out if you dont show a good faith effort to solve the problem yourself and contribute something. However my attempt was using a for loop. If you don't understand for loops you don't understand my attempt to solve using brute force. If i just go and post hey tell me how I won't get help (and perhaps rightfully so) on a phsyics forum. People who program however tend to have strong math skills so you can help and since i did try to you are more likely to. –  sparkzbarca Jul 16 '13 at 15:51

4 Answers 4

As you describe it your movement happens in 2 parts. The first part is accelerated movement (with constant acceleration) and the second part is movement under constant velocity.

You can calculate the traveling distance (or time) for each one individually and then combine them for the desired result.

Keep in mind that you need to check for special cases where the target is closer than the burn distance. The code below does that with the check if (distanceToTarget < burnDistance)

// these will be the results
float timeToTarget; 
float averageSpeed;

// assign values to these
float distanceToTarget;    
float acceleration;     
float burnTime;

float burnDistance = acceleration * burnTime * burnTime * 0.5;

if (distanceToTarget < burnDistance)
    timeToTarget = Math.Sqrt(2 * distanceToTarget / acceleration);
    float velocity = acceleration * burnTime;
    timeToTarget = burnTime + (distanceToTarget - burnDistance) / velocity;

averageSpeed = distanceToTarget / timeToTarget;
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During accelerated motion you can use d = a*t^2/2, or equivalently t = sqrt(2*d/a), at which time velocity v = a*t. Then you can extrapolate to the target using that v.

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so time in seconds is square root of ((2distance) / acceleration))? Is there a common math name for that function? Just for more info. So basically I use the T function to solve for T. Modify it to solve for A and then the average velocity to from the torpedo launcher to the target is basically A * T? –  sparkzbarca Jul 16 '13 at 15:46
@sparkzbarca: Look here, and plug in zero for initial velocity u. A*T is the velocity at time T when under acceleration A, not the average velocity. Good luck. –  Mike Dunlavey Jul 16 '13 at 16:28


d = initial distance to the target
b = burn time
a = acceleration

When the projectile stops accelerating, it will have

speed = a*b
distance (traveled) = dt = a*b^2/2

From that moment, it will need

time for impact = ti = (d-dt)/(a*b)

The total time will be

total time for impact = ti + b
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This is one way:

Function VelocityGivenTime(burnTime, givenTime)
    T = givenTime
    If T > burnTime Then T = burnTime

    return acceleration * T

Function DistanceGivenTime(burnTime, givenTime)
    If burntime >= givenTime Then
        T = givenTime
        return 0.5 * acceleration * T^2
        T = burnTime
        D = 0.5 * acceleration * T^2
        D = D + VelocityGivenTime(T) * (givenTime - burnTime)
        return D
    End IF

However, if what you really wanted was the time to a target give its distance, you could do it like this:

Function TimeGivenDistance(burnTime, distance)
    burnDistance = DistanceGivenTime(burnTime)

    If distance > burnDistance Then
        return burnTime + (distance - burnDistance) / VelocityGivenTime(burnTime)

        return SQRT(2 * distance / acceleration)
    End If
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