# Randomly pick two numbers in a range so that the sum of their squares is constant

I'm currently developing a 2-player Ping-Pong game (in 2D - real simple) from scratch, and it's going good. However Theres a problem I just can't seem to solve - I'm not sure if this should be located here or on MathExchange - anyway here goes.

Initially the ball should be located in the center of the canvas. When pressing a button the ball should be fired off in a completely random direction - but always with the same velocity.

The Ball object has (simplified) 4 fields - The position in X and Y, and the velocity in X and Y. This makes it simple to bounce the ball off the walls when it hits, simple by inverting the velocities.

``````    public void Move()
{
if (X - Radius < 0 || X + Radius > GameWidth)
{
XVelocity = -XVelocity;
}
if (Y - Radius < 0 || Y + Radius > GameHeight)
{
YVelocity = -YVelocity;
}
X+= XVelocity;
Y+= YVelocity;
}
``````

I figured the velocity should be the same in each game, so I figures I would use Pythagoras - the square of the two velocities should always be the same.

SO for the question:

Is there a way to randomly select two numbers (doubles) such that the sum of their squares is always a specific number - more formally:

``````double x = RandomDouble();
double y = RandomDouble();
if (x^2 + y^2 = 16) {/* should always be true */ }
``````

Any help appreciated :)

Randomly pick an angle `theta` and multiply that by the magnitude of the distance `d` you want. Something like:

``````double theta = rand.NextDouble() * 2.0 * Math.PI;
double x = d * Math.Cos(theta);
double y = d * Math.Sin(theta);
``````
• +1 Definitely the simple and right way if you want the angle to be uniformly distributed – Gary Walker Dec 27 '13 at 3:09
• Exactly. This problem is equivalent to picking a point on the surface of a sphere. – David Schwartz Dec 27 '13 at 3:14
• Works like a charm - a much better solution than what I thought of :) – Andersnk Dec 27 '13 at 3:15
• @DavidSchwartz Not quite the same as the problem with a sphere. Using this approach with a sphere will lead to clustering at the poles. See mathworld.wolfram.com/SpherePointPicking.html – andand Dec 27 '13 at 3:16
• @AndersNK Glad this was helpful to you. – andand Dec 27 '13 at 3:19

If the constant is `C`, pick a number `x` between `0` and `sqrt(C)`.

Solve for the other number `y` using simple algebra.

why not try this:

``````double x = RandomDouble();
double y = square(16-x^2);
``````

as your application allow double type.