Final Answer:
The original coordinates of the vertices T, Q, R, and S before the 90° counterclockwise rotation around the origin are as follows:
Original Q = (1, -3), Original R = (3, 3), Original S = (0, 2) and Original T = (2, 1)
Step-by-step explanation:
To solve this question, we need to understand the general rule for a 90° counterclockwise rotation around the origin (0,0) for any point (x,y). The rotation follows this rule:
If (x,y) is the point before rotation, then after a 90° counterclockwise rotation, the point will be at (-y, x).
Now, let's use this rule to find the original coordinates of the vertices T, Q, R, and S given their transformed coordinates after the rotation.
1. For Q', the coordinates after rotation are (3, 1). By using the rule, we know the original coordinates would be (-y, x). Swapping the positions and changing the sign of the second coordinate, we get:
Original Q = (1, -3)
2. For R', the coordinates after rotation are (-3, 3). Applying the rule (-y, x), we get:
Original R = (3, 3)
3. For S', the coordinates after rotation are (-2, 0). Again, applying the rule (-y, x), we find:
Original S = (0, 2)
4. For T', the coordinates after rotation are (1, -2). So, applying the rule (-y, x), we get:
Original T = (2, 1)
These are the original coordinates of the vertices T, Q, R, and S before the 90° counterclockwise rotation around the origin.