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What the most efficient way in the programming language R to calculate the angle between two vectors?

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You do know how the dot-product of two vectors is related to the cosine of the angle between the vectors, right? –  Christian Dec 13 '09 at 21:33
The problem doesn't lie with the math but with finding the right function in R without programming everything from the ground up myself. –  Christian Dec 13 '09 at 21:52
Uh oh, are the Christians quarreling again? ;-) –  Ken Williams Dec 14 '09 at 4:44

4 Answers 4

up vote 26 down vote accepted

According to page 5 of this PDF, sum(a*b) is the R command to find the dot product of vectors a and b, and sqrt(sum(a * a)) is the R command to find the norm of vector a, and acos(x) is the R command for the arc-cosine. It follows that the R code to calculate the angle between the two vectors is

theta <- acos( sum(a*b) / ( sqrt(sum(a * a)) * sqrt(sum(b * b)) ) )
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Really helpful answer, I would expect R to have a function to compute the norm of a vector and the dot product (as Matlab does) but I coudn't find it anywhere. I also wanted to compute the cos between two vectors, so this solved my problem. PS: +1 for source, the PDF file is quite good indeed. –  skd Nov 14 '11 at 21:59
Hello! I am trying to access the pdf but its forbidden. Anyone of you have a copy of this doc? Thanks :) –  Kaye11 Jul 1 '13 at 10:27
The broken link is fixed now. –  las3rjock Jul 14 '13 at 17:02

I think what you need is an inner product. For two vectors v,u (in R^n or any other inner-product spaces) <v,u>/|v||u|= cos(alpha). (were alpha is the angle between the vectors)

for more details see:


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You should use the dot product. Say you have V1 = (x1, y1, z1) and V2 = (x2, y2, z2): then

the dot product, which I'll denote by V1*V2, is calculated as

   V1*V2 = X1*X2 + Y1*Y2 + Z1*Z2 = |V1|*|V2|*cos(theta);

(I'm using an "*" where mathematical notation would normally use an actual period, because there is no way to elevate a period to the center of the text line.)

What this means is that that sum shown on the left is equal to the product of the absolute values of the vectors times the cosine of the angle between the vectors. the absolute value of the vector V1 is calculated as

  |V1| = SquareRoot(x1^2 + y1^2 + z1^2), (I'm using "^2" to indicate squaring)

and analogously for |V2|, of course.

So, if you rearrange the first equation above, you get

  cos(theta) = (x1*x2 + y1*y2 + z1*z2)/(|V1|*|V2|),

and you just need the arccos function (or inverse cosine) applied to cos(theta) to get the angle.

Depending on your arccos function, the angle may be in degrees or radians.

(For two dimensional vectors, just forget the z-coordinates and do the same calculations.)

Good luck,

John Doner

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Another solution : the correlation between the two vectors is equal to the cosine of the angle between two vectors.

so the angle can be computed by acos(cor(u,v))

# example u(1,2,0) ; v(0,2,1)

theta = acos(cor(c(1,2),c(2,1)))
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