# Why is cosine used to calculate the x values and sine the y values for an arc?

I'm trying to understand the math on this raphael.js demo:

http://raphaeljs.com/pie.js

Checkout the sector method:

``````function sector(cx, cy, r, startAngle, endAngle, params) {
var x1 = cx + r * Math.cos(-startAngle * rad),
x2 = cx + r * Math.cos(-endAngle * rad),
y1 = cy + r * Math.sin(-startAngle * rad),
y2 = cy + r * Math.sin(-endAngle * rad);
return paper.path(["M", cx, cy, "L", x1, y1, "A", r, r, 0, +(endAngle - startAngle > 180), 0, x2, y2, "z"]).attr(params);
}
``````

This is the actual demo: http://raphaeljs.com/pie.html

My math is a little rusty and I'm trying to understand the sector function - given the startAngle and endAngle parameters (each start and end point values between 0 and 360 drawing an arc), why does this function work?

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Don't try mathoverflow.net for something like this -- and @Steven please don't recommend doing so unless the question really is "graduate research level" math. Try the StackExchange math site instead. –  walkytalky Aug 15 '10 at 18:42

It all depends on how you treat `startAngle` and `endAngle`. It looks like this is treating them as starting from horizontal to the right (i.e. an angle of 0 is pointing East) and going clockingwise (so an angle of 45 degrees is pointing South-East.

Usually in mathematics we consider angles starting from the horizontal to the right, but increasing anti-clockwise... but if you ask a non-mathematician to draw an angle, they may well treat it from vertically up (i.e. North) increasing clockwise. This looks like it's taking a mixture :) There's no really "wrong" or "right" answer here - it's all a matter of definition.

As pictures are popular, here are the three systems I've described, each assuming the line is of length `r`:

Normal mathematics: anti-clockwise from x-axis

Asking the man on the street to draw an angle (clockwise from y-axis)

The angles used by this code (clockwise from x-axis)

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Jon, what did you use to generate the lovely picture with the hand-written but legible quality? I've used Zwibbler in the past for such things: zwibbler.com –  duffymo Aug 15 '10 at 19:13
@duffymo: A piece of paper, a pen, and a scanner. –  Jon Skeet Aug 15 '10 at 19:15
True genius == simplicity. Nice. –  duffymo Aug 15 '10 at 19:21
I didn't know angles had directions. Clears up a lot, thank you. –  Bjorn Tipling Aug 15 '10 at 19:38
Just for clarity, this are the coordinates used in the Canvas from HTML5, angles are clockwise and start from the x axis. –  JCM Jun 15 '12 at 0:18

Just look at what sin and cos actually mean in a circle:

If you have a point on a circle which forms an angle alpha, the cos alpha is the x-part of the point a sin alpha is the y part.

This illustration explains, why the angle is negated.

It means, that you can now specify clockwise angles, which most people with analogue clocks prefer.

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@Luther: As I said in my answer, it entirely depends on how you've decided to treat angles. There's nothing inherently x-axis-related about `cos` - it's only because that diagram measures angles from the x-axis. –  Jon Skeet Aug 15 '10 at 18:18
+1 a picture says a 1000 words... –  gbn Aug 15 '10 at 18:18
(In particular, this diagram doesn't explain why the angle is negated each time.) –  Jon Skeet Aug 15 '10 at 18:21
@apphacker: Look at the code: `r * Math.cos(-startAngle * rad)`. It's taking `cos` of `-startAngle`, not `startAngle`. I believe that's due to the angle being measured clockwise. See my answer for more details. –  Jon Skeet Aug 15 '10 at 18:27
+1 - beautiful rendering. –  duffymo Aug 15 '10 at 19:13

Because arbitrary point on circumference with center (cx, cy) and radius R has the following coordinate (it directly follows from cos and sin geometric definitions - ratio between lengths of corresponding cathetus and hypotenuse):

``````x = cx + R*cos(a)
y = cy + R*sin(a) for  0 <= a < 2π
``````

So setting limits on angle a you can define arbitrary arc.

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If you take 0° as horizontal with x increasing and 90° as vertical with y increasing then as:

``````cos(0) = 1
sin(0) = 0

cos(90) = 0
sin(90) = 1
``````

you can vary the x value by multiplying it by the cosine and vary the y value by multiplying it by the sine.

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