(x, y) → (x+4, y–3)
The function moves each point (x, y) in the coordinate plane to a new point (x+4, y–3). This means that the x-coordinate of each point is increased by 4 and the y-coordinate is decreased by 3.
does it preserve congruence
No, this function does not preserve congruence. Congruence is a property of figures or shapes that remain unchanged after a transformation. In this case, the transformation shifts each point in the coordinate plane, so the distance between points and the relative position of the points are changed. Therefore, the function does not preserve congruence.
how do i tell if a transformation does preserve congruence
To determine if a transformation preserves congruence, you need to check if the transformation preserves distance and angle measures.
1. Distance: If the distances between any two points before and after the transformation remain the same, then the transformation preserves congruence.
2. Angle Measures: If the angles between any two lines or line segments before and after the transformation remain the same, then the transformation preserves congruence.
If a transformation satisfies both conditions, it preserves congruence.
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(x, y) → (0.5x, 0.5y) preserves congruence, right? x and y both only changed to have 0.5 in front of them, theres no difference.
No, the transformation (x, y) → (0.5x, 0.5y) does not preserve congruence. This transformation is a dilation by a factor of 0.5. While it indeed scales down the coordinates by a factor of 0.5, it does not preserve distances or angles.
For a transformation to preserve congruence, both distance and angle measures must remain unchanged. In this case, the distances between points are halved, so the relative size and shape of figures are altered. Additionally, the angles between lines or line segments are also altered by the dilation.
Therefore, the transformation (x, y) → (0.5x, 0.5y) does not preserve congruence.