# Ball collision, Android

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I am trying to make two balls collide and I already read a lot of physical stuff and discussions that dealed with this topic. I already wrote some code based on the stuff I read but there seems to be a problem when two balls are colliding with a difference in their x-coordinate but without movement in x-direction (and the same for the y-axis).

For an example if i let a ball drop from the air on a ball that is on the ground (with a little offset in x-direction), the falling ball just jumps straight back into the air instead of getting an acceleration in x-direction.

I also got some code, that doesn't have this problem but that assumes that the balls have the same mass which isn't always true in my case.

I don't know what is missing in my code or how i can transform the other code to care about masses.

Here is a picture for better understanding:

my code:

``````        double collisionAngle = Math.atan2(element1.getPosY() - element2.getPosY(), element1.getPosX() - element1.getPosX());
double direction1 = Math.atan2(element1.getVectorY(), element1.getVectorX());
double direction2 = Math.atan2(element2.getVectorY(), element2.getVectorX());
double magnitude1 =
Math.sqrt(element1.getVectorX() * element1.getVectorX() + element1.getVectorY() * element1.getVectorY());
double magnitude2 =
Math.sqrt(element2.getVectorX() * element2.getVectorX() + element2.getVectorY() * element2.getVectorY());
double v1x = magnitude1 * Math.cos(direction1 - collisionAngle);
double v1y = magnitude1 * Math.sin(direction1 - collisionAngle);
double v2x = magnitude2 * Math.cos(direction2 - collisionAngle);
double v2y = magnitude2 * Math.sin(direction2 - collisionAngle);
double f1x =
(v1x * (element1.getMass() - element2.getMass()) + 2 * element2.getMass() * v2x)
/ (element1.getMass() + element2.getMass());
double f2x =
(v2x * (element2.getMass() - element1.getMass()) + 2 * element1.getMass() * v1x)
/ (element1.getMass() + element2.getMass());

double v1 = Math.sqrt(f1x * f1x + v1y * v1y);
double v2 = Math.sqrt(f2x * f2x + v2y * v2y);

double D1 = Math.atan2(v1y, f1x) + collisionAngle;
double D2 = Math.atan2(v2y, f2x) + collisionAngle;

element1.setVectorX(Math.cos(D1) * v1);
element1.setVectorY(Math.sin(D1) * v1);
element2.setVectorX(Math.cos(D2) * v2);
element2.setVectorY(Math.sin(D2) * v2);
``````

code that doesn't care about mass but works for this situation

``````        double dx = element1.getPosX() - element2.getPosX();
double dy = element1.getPosY() - element2.getPosY();
double phi = Math.atan2(dy, dx);
//Transformations
double ux = (element1.getVectorX() + element2.getVectorX()) / 2;
double uy = (element1.getVectorY() + element2.getVectorY()) / 2;
//Calculate magnitude of each vector for mc1 and mc2
double mc1vx = element1.getVectorX() - ux;
double mc1vy = element1.getVectorY() - uy;
double mc2vx = element2.getVectorX() - ux;
double mc2vy = element2.getVectorY() - uy;
double mc1_vmagnitude = Math.sqrt(mc1vx * mc1vx + mc1vy * mc1vy);
double mc2_vmagnitude = Math.sqrt(mc2vx * mc2vx + mc2vy * mc2vy);
//calculate direction of each vector
double alfa = Math.atan2(mc1vy, mc1vx);
double beta = Math.atan2(mc2vy, mc2vx);
//Get new vectors
double v1x = mc1_vmagnitude * (Math.cos(2 * phi - alfa) * -1) + ux;
double v1y = mc1_vmagnitude * (Math.sin(2 * phi - alfa) * -1) + uy;
double v2x = mc2_vmagnitude * (Math.cos(2 * phi - beta) * -1) + ux;
double v2y = mc2_vmagnitude * (Math.sin(2 * phi - beta) * -1) + uy;
//apply new vectors
element1.setVectorX(v1x);
element1.setVectorY(v1y);
element2.setVectorX(v2x);
element2.setVectorY(v2y);
//to somewhat mediate the stick problem such them apart furtherâ€¦
element1.setPosX(element1.getPosX() + v1x, false);
element1.setPosY(element1.getPosY() + v1y, false);
element2.setPosX(element2.getPosX() + v2x, false);
element2.setPosY(element2.getPosY() + v2y, false
``````
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