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First note: mathematically, I'm not that skilled at all.

I played a game on iPhone a while back where you press a point, and an arrow fires from your castle which will always intersect the point you pressed. I wanted to make a similar game, thinking it would be an easy quick make; then I ran into the realization that the mathematics for this is actually beyond my skill level.

I'm assuming they're using a parabola formula or something which would determine the velocity and angle needed when the arrow is launched for the arrow to always intersect the clicked point.

I only vaguely remember how parabolas work from school and have no chance of working out any formulas.

Any mathematical help or ideas that might be easier to implement would be great.

I want to end up with a function in my castle like so:

    import avian.framework.objects.AvElement;

    public class Castle extends AvElement
         * Fires an arrow from this
         * @param ix The x intersection point
         * @param iy The y intersection point
        public function fire(ix:Number, iy:Number):void
            var ar:Arrow = new Arrow();

            ar.x = x;
            ar.y = y;

            // define angle and velocity based on ix, iy
            // ar.fireAngle = ??
            // ar.fireVelocity = ??


Update as per questions in comments:

There will be no forces applied to the arrow such as wind, friction, etc. Also, the starting point of the arrow is fixed throughout the game (at the castle).

Here is an example image for slightly more clarity: Arrow path

To be as clear as possible:

  1. Arrow always begins its journey from a fixed point (say: 40, 120).
  2. The arrow must always intercept a given coordinate.
  3. A realistic as possible path is something I'd like to achieve (obviously I can just fire an arrow straight to intercept any point, but the goal is to have the arrow first rise, then descend; passing through the desired coordinate at the most realistic point in its journey).

Note: To avoid the issue of there being infinite possible parabolas - the velocity of the arrow can be fixed - just look at defining the angle the arrow can leave at.

share|improve this question
Just a quick note: you'll also need a starting point (as well as the destination) – Cameron May 11 '11 at 1:20
So you click where you want the arrow to end up? You'll need origin coordinates too. The angle and velocity will be a paired range of values, unless one is fixed. Obviously the velocity has to be at least the minimum to achieve the distance at the optimal angle. But if the angle is to very, then the velocity can too. No air resistance, wind, at all? Earth standard gravity? – Orbling May 11 '11 at 1:22
This graph and the equations under it are useful. – Orbling May 11 '11 at 1:27
The origin will be fixed and there will be no other forces applied to the arrow - see update to question. :) – Marty May 11 '11 at 1:35
Unfortunately you will probably need some linear algebra for this which is nontrivial. You need to plug in the target's coordinates for x and y in the two equations to the left and solve for v_0 and t. There are an infinite number of solutions to that system. You should look into methods of solving systems of equations next. – darth happyface May 11 '11 at 1:36
up vote 8 down vote accepted

The flight path of a projectile through a gravitational field can be described by applying the equations of motion

The equations I will use are

1. v = u + at
2. s = ut + (at^2)/2


s = the distance between initial and final positions
u = the initial velocity
v = the final velocity
a = the constant acceleration
t = the time taken to move from the initial state to the final state

Ok. To animate this arrow we will calculate its new velocity and position at regular intervals (every frame) based on its previous velocity, position and acceleration. Acceleration in this case is entirely due to gravity.

Lets simplify and measure the time intervals in frames rather than seconds. This gives us t = 1 for the above equations allowing us to rewrite them as

1. v = u + a*1           => v = u + a
2. s = u*1 + (a*1^2)/2   => s = u + a/2

Now in the x direction the acceleration, a = 0 (we're not taking drag into account). In the y direction a = g, acceleration due to gravity. If we rewite these equations for resolved for each axis we get

for x:

1. vx = ux + 0        => vx = ux (no change so we'll ignore this)
2. sx = ux + 0/2      => sx = ux (convenient eh?)

for y:

1. vy = uy + g
2. sy = uy + g/2 

So lets plug them into a sample script

public class Arrow extends Sprite
    //g is constant
    //it's actually closer to 10 but this is our world
    public static const g:Number = 2;

    //our arrow
    private var arrow:Shape;

    //start velocities
    private var ux:Number;
    private var uy:Number;

    public function Arrow()
        arrow = new Shape(); 1, 0 ); 30, 0 );

    public function fire( vx:Number, vy:Number ):void
        ux = vx;
        uy = vy;
        addChild( arrow );
        addEventListener( Event.ENTER_FRAME, fly );

    private function fly( e:Event ):void
        //lets use our equations
        var sx:Number = ux;       //distance moved in x dir

        var vy:Number = uy + g    //new velocity in y dir
        var sy:Number = uy + g/2  //distance moved in y dir

        //apply to arrow
        arrow.x += sx;
        arrow.y += sy;

        //save new y velocity
        uy = vy;

        //extra bonus rotation of arrow to point in the right direction
        arrow.rotation = Math.atan2( uy, ux ) * 180 / Math.PI;


share|improve this answer
Looks really convincing mate, I'll have to try it out when I get a moment. +1 for the effort either way :) – Marty May 11 '11 at 2:27
@Marty Wallace No problem, I enjoyed writing it, hope it helps – meouw May 11 '11 at 2:29

You can do it with basically no math:

import flash.display.Shape;

public class Arrow extends Shape
    private var xVelocity:Number;
    private var yVelocity:Number;

    public function Arrow(fireAngle:Number, fireVelocity:Number)
        xVelocity = Math.cos(fireAngle) * fireVelocity;
        yVelocity = Math.sin(fireAngle) * fireVelocity;

        graphics.drawCircle(0, 0, 5);

        addEventListener(Event.ENTER_FRAME, enterFrameHandler);
    private function enterFrameHandler(ev:Event):void
        x += xVelocity;
        y += yVelocity;
        yVelocity += 1;
share|improve this answer
Is it that hard to run it and see? – Sean Fujiwara May 11 '11 at 2:29
Sorry, this will give the effect of what I want, but the goal is to have the arrow intersect a point. Having the arrow manoeuvre realistically is not a concern. – Marty May 11 '11 at 2:33

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