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i'm kinda stuck here with my thoughts..I have a picture of what i want accomplish. I think its the best way to explain.

enter image description here

The red points are the starting positions. I want all of them to hit the same Spots on the ground, while right from the start moving in a parabola. Sadly im not that great of a math geek to get this working. It is important that the paths are always staying the same. I dont know if i could accomplish this with simple physics (gravity) Box2D maybe. Thanks for any tip!

EDIT: i maybe thought that this could be accomplished by giving the objects the same y speed, but different x speeds. But this would be kinda hard coded..still looking for some practical answers :/

I`ve tried some math formulas, but i cant get this to work the way i want it :/.

Used those:

x = v*t*cos(alpha) y = (v*t*sin(alpha))-(0.5*g*t^2)

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haha, love your artwork ;) –  davogotland Jan 13 '12 at 17:47
by the by, your explanation also means that the speed of the balls would have to be faster the lower they are. –  davogotland Jan 13 '12 at 17:49
no, i want them to take longer to get to those spots, depending on the starting y position. and i also want them to return to this height, when they hit the ground, but in a curved path.. My image isnt that great, because for the most upper ball, the path is only half is high as it should be. –  puelo Jan 13 '12 at 17:53
ok, so the ball always bounces back up to its original height? and the higher the ball is, the longer the time to get back down? –  davogotland Jan 13 '12 at 17:56
Right, they all move at the same speed, with the same mass, they just need to hit the same spots at the ground, but not at the same time –  puelo Jan 13 '12 at 17:58

1 Answer 1

up vote 0 down vote accepted

I dont know if im allowed to answer my own question..

I just want to let you know a solution i m using now. Its not optimal, but i guess it works:

I've implemented a Time.class to save my deltaTime. In my Enemy class i got this for the movement:

    distance = 100;
    vY = targetTime*gravity*0.5f;
    vX = distance / targetTime;

and in the update method:

      x += vX * Time.deltaTime;
      y -= vY * Time.deltaTime;

      vY -= gravity;
      if(y >= 280)
        vY = -vY;

So after hitting the ground i just turn the y-velocity around. This especially works in my case, because the gravity kicks back in after some time and gets the enemy back to the ground. Its still hard coded but i dont know better than do this.

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