Equation: Switch the x and y and change the ones that were y and now are x to negatives.
Coordinate:Change both the x and y to negative then switch there places.
(2, -3)
Not normally but there will be a change in the coodinates of the reflected image on the Cartesian plane
The coordinates of the image are typically related to the coordinates of the preimage through a specific transformation, which can include translations, rotations, reflections, or dilations. For example, if a transformation is defined by a function or a matrix, the coordinates of the image can be calculated by applying that function or matrix to the coordinates of the preimage. Thus, the relationship depends on the nature of the transformation applied.
To determine the coordinates of the image produced by a composition of transformations, you'll need to apply each transformation step-by-step to the original coordinates. Start with the first transformation, apply it to the coordinates, and then take the resulting coordinates and apply the next transformation. The final coordinates after all transformations will give you the image's location. If specific transformations and original coordinates are provided, I can give a more precise answer.
The coordinates of an image typically refer to the specific pixel locations within the image grid, defined by their horizontal (x) and vertical (y) values. For example, the coordinates (10, 20) would indicate the pixel located 10 pixels from the left and 20 pixels from the top of the image. If you need specific coordinates for a particular image, please provide more context or details about the image in question.
-1,3
They are (4, -6).
(2,-5) turns into 2,5
The answer will depend on the original coordinates of A: these have not been provided so neither has an answer.
(2, -3)
(1, -2)
(7, -3)
(3, -6)
(2, -6)
(2, -4)
The image is at (6, 3).
Not normally but there will be a change in the coodinates of the reflected image on the Cartesian plane