# Finding the coordinates on the edge of a circle [closed]

Using C#:

How do I get the (x, y) coordinates on the edge of a circle for any given degree, if I have the center coordinates and the radius?

There is probably SIN, TAN, COSIN and other grade ten math involved... :)

• en.wikipedia.org/wiki/Trigonometry is your friend, the calculations are quite simple. Check the Math Namespace for Sin() & Cos() – Morfildur Jan 19 '10 at 12:30
• @Lucero: No, I doubt this one would count as a "research level math question" – Niki Jan 19 '10 at 12:44
• Either way, he would be absolutely flamed to death on Math Overflow if he posted that. They're much more strict about keeping it "by mathematicians, for mathematicians" than we are over here. – Adrian Petrescu Jan 19 '10 at 18:49
• Possible duplicate of Calculating point on a circle's circumference from angle in C#? – Peter O. Nov 21 '16 at 7:12
• I'm voting to close this question as off-topic because it is a geometry question, not a programming question. – tripleee Aug 17 '18 at 9:56

This has nothing to do with C#. There is just some elementary mathematics involved.

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

theta is in radians, x0 and y0 are the coordinates of the centre, r is the radius, and the angle is measured anticlockwise from the x-axis. But if you want it in C#, and your angle is in degrees:

``````double x = x0 + r * Math.Cos(theta * Math.PI / 180);
double y = y0 + r * Math.Sin(theta * Math.PI / 180);
``````
• It funny on these types of questions how almost identical the answers are. Even down to the structure of the answer :P – Alastair Pitts Jan 19 '10 at 12:36

using Pythagoras Theorem (where x1,y1 is the edge point):

x1 = x + rcos(theta)
y1 = y + r
sin(theta)

in C#, this would look like:

``````x1 = x + radius * Math.Cos(angle * (Math.PI / 180));
y1 = y + radius * Math.Sin(angle * (Math.PI / 180));
``````

where all variables are `doubles` and `angle` is in degrees

For a circle with origin `(j, k)`, radius `r`, and angle `t` in radians:

``````   x(t) = r * cos(t) + j
y(t) = r * sin(t) + k
``````