Rotate coordinates 270° counter-clockwise: (x, y) -> (-y, x) and the correct option is D.
Arrow notation is a way to represent geometric transformations using arrows. To represent a rotation of 270° about the origin, we draw an arrow from the original point to the rotated point, and label the arrow with the angle of rotation.
In the case of a 270° rotation about the origin, the arrow will point from the original point to the point that is reflected across the y-axis and then rotated 90° counterclockwise. This means that the new coordinates of the point will be (y,-x).
We can use arrow notation to represent this transformation as follows:
P(x,y) → P'(y,-x)
where P(x,y) is the original point and P'(y,-x) is the rotated point.
Here is an example of how to use arrow notation to find the coordinates of a point after a rotation of 270° about the origin:
Suppose we have the point P(-2,3). To find the coordinates of P' after a rotation of 270° about the origin, we draw an arrow from P to P', and label the arrow with the angle of rotation:
(-2,3) → P'
270°
Since the arrow points to the point that is reflected across the y-axis and then rotated 90° counterclockwise, the coordinates of P' are (3,2).
Therefore, the arrow notation for the rule for finding the coordinates of a point after a rotation of 270° about the origin is (d)
. So, the correct option is D.