Since you (apparently) want the green line to be perpendicular to the red line, you don't need to compute the angle between p1 and p2. Rotating a vector by 90˚ is quite trivial.

I assume you have p1 and p2 as `CGPoint`

(or `NSPoint`

) variables.

First let's compute the vector from p1 to p2:

```
CGPoint p1p2 = CGPointMake(p2.x - p1.x, p2.y - p1.y);
```

Next we'll compute a vector that is perpendicular to the p1->p2 vector:

```
CGPoint p1p2Perp = CGPointMake(p1p2.y, -p1p2.x);
```

Now let's find the length of the perpendicular vector:

```
CGFloat radius = hypot(p1p2Perp.x, p1p2Perp.y);
```

Note that if the radius of the circle is constant, you can just use that instead of computing it. If you're on iOS, use `hypotf`

instead of `hypot`

.

So now we can “normalize” the perpendicular vector, making it have length 1, by dividing its coordinates by its length:

```
p1p2Perp.x /= radius;
p1p2Perp.y /= radius;
```

Next we can multiply it by *half* of the desired length of the green line. I assume you have the desired length of the green line in a constant or variable named `greenLineLength`

.

```
p1p2Perp.x *= greenLineLength / 2;
p1p2Perp.y *= greenLineLength / 2;
```

Now we can create a path for the green line. I assume your `CGContextRef`

is in a variable named `gc`

:

```
CGContextBeginPath(gc);
CGContextMoveToPoint(gc, p1.x - p1p2Perp.x, p1.y - p1p2Perp.y);
CGContextAddLineToPoint(gc, p1.x + p1p2Perp.x, p1.y + p1p2Perp.y);
```

You can stroke the path however you like. For example:

```
CGContextSetRGBStrokeColor(gc, 0, 1, 0, 1);
CGContextSetLineWidth(gc, 2);
CGContextSetLineCap(gc, kCGLineCapRound);
CGContextStrokePath(gc);
```