Is it possible to reflect any shape

Notice that each point of the original figure and its image are the same distance away from the line of reflection.

You may be able to simply "count" these distances on the grid. In a point reflection in the origin , the image of the point x,y is the point -x,-y. For calculator help with transformations click here. NOTE: The re-posting of materials in part or whole from this site to the Internet is copyright violation and is not considered "fair use" for educators. Please read the " Terms of Use ". Reflection in Water.

Reflection in a Mirror. Reflection in Shiny Surface. Reflect over the x-axis:. Reflect over the y-axis:. Reflect over any line:. Media outlet trademarks are owned by the respective media outlets and are not affiliated with Varsity Tutors.

Varsity Tutors connects learners with experts. Instructors are independent contractors who tailor their services to each client, using their own style, methods and materials. Reflections A reflection is a transformation representing a flip of a figure.

Reflection in the x -axis: A reflection of a point over the x -axis is shown. A transformation that uses a line that acts as a mirror, with an original figure preimage reflected in the line to create a new figure image is called a reflection. A reflection is sometimes called a flip or fold because the figure is flipped or folded over the line of reflection to create a new figure that is exactly the same size and shape. What is important to note is that the line of reflection is the perpendicular bisector between the preimage and the image.

Thus ensuring that a reflection is an isometry, as Math Bits Notebook rightly states. When reflecting over across the x-axis, we keep x the same, but make y negative. Reflection Across the X-Axis. When reflecting over across the y-axis, we keep y the same, but make x-negative. Reflection Across the Y-Axis. These reflected points represent the inverse function.