I've managed to get Chipmunk physics and some other stuff to lay down a ball on my screen, and I can affect the gravity with some buttons / accelerometer. Yay me!

Next up, I'd like to turn off the gravity, and simulate a top-down view, where that ball moves around the screen of its own volition. I can apply forces to the ball using body -> f = cpv(dx, dy), but I'm not quite up on my physics and mathematics, so I'm trying to understand how the two values I feed it cause the movement.

I understand that positive values will move it right or down, and negative values will move it left or up, but that's about all I'm understanding at this point.

If I wanted to, say, pick a random compass bearing (0 - 359 degrees) and move it on that bearing, how would such a value translate into a vector?

I've created this method, but it's not working as expected and I'm unsure what I'm doing wrong:

- (CGPoint) getVectorFromAngle: (float) angle AndMagnitude: (float) magnitude
    float x = magnitude * cos(angle);
    float y = magnitude * sin(angle);
    CGPoint point = CGPointMake(x, y);
    NSLog(@"Made a CGPoint of X: %f and Y: %f.", point.x, point.y);
    return point;

If I feed it an angle of 45 and a magnitude of 10, it creates X as 5.253220 and 8.509035. However, the calculator found here shows that it should create X and Y as 7.0711.

What do I have wrong here?


sin and cos take angles in radians, multiply your angles by π/180.

  • Yes, I was just writing this myself :D – Fogmeister Jan 9 '13 at 14:42

It's also good to point out that Chipmunk already contains a functions that do exactly what you want.

cpvmult(cpvforangle(radians), magnitude)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.