Rotation Matrix Using Trig Functions

Hi Jacob,

Thanks for writing to Doctor Math.

Compute the point (x',y') where

|x'| = |cos(theta) -sin(theta)| |x|
|y'| |sin(theta) cos(theta)| |y|

Now compare the segment from (0,0) to (x,y) with the segment from
(0,0) to (x',y'). Investigate the lengths of the segments and the
angle between them.

Write again if you need more help.






Thanks a lot! I had tried going down that road, but I got lost, if
you know what I mean. You've shown me the "light". Thank you. I
highly appreciate the work you guys (and gals) do at the Math Forum.
Keep up the good work!





I read your question about rotations of matrices using trig functions.
(Note: this has only to do with rotating in origin). However.......

For some reason, I still do not understand why

|cos(beta) -sin(beta)|
|sin(beta) cos(beta)|

is the one used for rotation. Maybe I am not being very clear. I
understand how this matrix was acquired, but I do not understand the
application, reason, and origin of why a trig function has to be
involved for rotation.

This is really hard to explain not having a graphing paper included.
But, I know that when one rotates something, the original (x,y) is
switched to (-y,x). And using some inverse matrix equations, one gets
the above. But just why does there have to be trig functions?





Hi Sakura,

Thanks for writing to Doctor Math.

Rotation matrices are worth the effort you are putting into
understanding them. You seem to be starting on them at a younger
age than most, so I'm not sure what you have studied so far.

Hopefully you have learned about vectors. Each row of the matrix
represents a vector.

cos(beta) i - sin(beta) j

sin(beta) i + cos(beta) j

Notice that these vectors have unit length and are rotated by an angle
beta from the coordinate axes. They are also perpendicular to each other.

When you multiply a vector x times the matrix you are actually taking
the dot product of x and each of the row vectors. The result is the
component of x in the directions of the row vectors.

So the trig functions give us a clean way to produce vectors that have
been rotated by a specified angle.

Does that make sense? Write again if you need more help.