# Finding a line making an angle θ with a known line

I have a line from (a, b) to (x, y), and I would like to draw a line starting at (x, y), with length ℓ, that makes an angle of θ with the original line.

How do I compute the coordinates of the endpoint of this new line? See the diagram:

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Can you work out the angle between your first line and the y axis? If you did know it, would you be able to work out the unknown coordinates? –  Tim N Dec 5 '12 at 22:46

It's nearly always simpler to use vector algebra for this kind of thing, rather than Cartesian coordinates. Let's start by labelling the points:

Let R(θ) be the matrix that rotates by θ radians counter-clockwise:

Then compute:

v = BA (the vector from A to B)

= v / |v| (the unit vector in the direction of v)

ŵ = R(−θ) (the unit vector in the direction of BC; your rotation is clockwise, so we need R(−θ) here, not R(θ))

w = ℓ ŵ (the vector of length ℓ in the direction of BC)

C = B + w

This approach avoids the need to compute an arctangent, which would need some care (if done naïvely, it runs into trouble when B is vertically above or below A; but most languages have a function like `atan2` for handling this case).

In any sensible programming language with a vector library you should be able to write this as a one-liner, perhaps like this:

``````C = B + (B - A).unit().rotate(-theta) * l
``````
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OK, so after a lot of scribbling, I came up with this:

The dashed lines represent lines parallel to the x- and y-axes.

m = x − a

n = y − b

α = tan−1 (n / m)

β = α − θ

p = ℓ cos β

q = ℓ sin β

c = x + p

d = y + q

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Thanks for the edit. What did you use to create the graphic? Thanks –  Fogmeister Dec 10 '12 at 16:59
–  Gareth Rees Dec 10 '12 at 17:01