# Getting a point of circle from a number?

I have a circle of let's say 10 of radius with the center `x=0` `y=0`. And I have a number n (e.g. 3). I want to get a point from that circle. Here is an explanation with an image:

So if `n=0`, the method would return `0;-6`
And if `n=1`, the method would return `3;-5` etc.
But the method would receive parameters like the unit between each n etc.

• Is it a circle or a sphere? Circles don't have z-values Sep 28, 2014 at 15:40
• It's a circle, I meant y not z Sep 28, 2014 at 15:41
• @InfiniteRecursion depends on how you name the axes; circles on an X-Z plane do have a position along the Z coordinate Sep 28, 2014 at 15:41
• @alex how would I use that? Sep 28, 2014 at 15:45
• I don't understand your "specification". If it's "pick from the list of all integer points on a cirle of some unspecified radius (but 6 only yields the four points along the cardinal direction), then your image doesn't match due to symmetry. Two points per quadrant above the x-axis, but three below? Sep 28, 2014 at 15:46

The equation of a circle is

``````x = x0 + r * cos(a)
y = y0 + r * sin(a)
``````

with (x0, y0) the center of the circle and a in 0...2Pi

so if you want y given x you will have :

``````sin(a) = (y - y0)/r
``````

so

``````a = arcsin((y - y0)/r) if ((y - y0)/r is in -PI/2..PI/2)
a = -arcsin((y - y0)/r) if ((y - y0)/r is in -PI..-PI/2 or PI/2..PI)
a is undefine elsewhere
``````

therefore

``````y = y0 + r * sin(arcsin((y - y0)/r)) if ((y - y0)/r is in -PI/2..PI/2))
y = y0 + r * sin(-arcsin((y - y0)/r)) if ((y - y0)/r is in -PI..-PI/2 or PI/2..PI))
y is undefine elsewhere
``````

Use the roots of unity, it will give you the exponential form of a complex on the circle. You can then use the Euler formula to get the real coordinates of your point. Of course, since your circle is not unitary, you must take into account its radius.