Generally, project the cells onto a plane, then use a rotation matrix, then project them cells back into the grid. For this example, its overkill, but works nonetheless.
You need to set your origin to be (21,11) not (0,0) so first translate your points
[x'] := [x - 21]
[y'] [y - 11]
Then apply the rotation matrix transform (note that I'm assuming traditional direction of axes)
[x''] := [ cos(-Pi/2) -sin(-Pi/2) ][x'] = [ y']
[y''] [ sin(-Pi/2) cos(-Pi/2) ][y'] [-x']
Then un-translate the origin. Because your plane wasn't square, the resultant rotated plane is a different shape (it measures 21x41 with origin 11,21). I've assumed this is what you wanted, and you didn't want points to be able to "fall off" the plane.
[x'''] := [x'' + 11]
[y'''] [y'' + 21]
Simplifying the algebra, this boils down to the map
[x] -> [ y ]
(22,14) rotates to (14,20)
Note: Counting from 1, I make the centre of 41x21 as 21x11, not 20x10?