# How can i calculate elastic collisions with mass

I am currently working in OpenTK and trying to achieve some simple 2D elastic collision detection following a tutorial, however, this tutorial is entirely theory and i'm struggling with some elements of it.

I have done the best i can following it but the tutorial does not say to normalize Velocity before getting the dot product of velocity and collision direction, however it seems logical to me that it should be normalized first, but then when i normalize, if a circle is still (i.e. velocity of 0) then i get NaN when i attempt the normalization.

I have not normalized the velocities below because i am unsure if it's correct, and even if i do, the results are incorrect either way and the elastic collision does not behave correctly no matter what i change.

Here is what i have so far (where para is parallel and perp is perpendicular velocities. this is a circle member method which calculates on itself and the colliding circle):

``````        public void Collide(Circle p_circle) {
float distance = Math.Abs((Position - p_circle.Position).Length);
if (distance < radii) {
SetToLastGoodPos();
p_circle.SetToLastGoodPos();

Vector2 colDir1 = Vector2.Normalize(p_circle.Position - Position);

Vector2 para1 = Velocity*Vector2.Dot(Velocity, colDir1);
Vector2 perp1 = Velocity - para1;

Vector2 para2 = p_circle.Velocity*Vector2.Dot(p_circle.Velocity, -colDir1);
Vector2 perp2 = p_circle.Velocity - para2;

float v1 = (Mass - p_circle.Mass) / (Mass + p_circle.Mass) * para1.Length
+ (2 * Mass) / (Mass + p_circle.Mass) * para2.Length;
float v2 = (p_circle.Mass - Mass) / (Mass + p_circle.Mass) * para2.Length
+ (2 * p_circle.Mass) / (Mass + p_circle.Mass) * para1.Length;
Vector2 newPara1 = colDir1*v1;
Vector2 newPara2 = colDir1*v2;
Velocity = newPara1 + perp1;
p_circle.Velocity = newPara2 + perp2;

}
}
``````