These are general terms that you will see in your study of transformations.
Remember that transformations are operations that alter the form and/or location of a figure.
The standard transformations are reflections, translations, rotations, and dilations.

Terms are listed in alphabetical order.

Image: An image is the resulting point or set of points under a transformation.  For example, if the reflection of point P in line l is P' (referred to as P prime), then P' is called the image of point P under the reflection (of the pre-image).  Such a transformation is denoted rl (P) = P'. vocab1

 

Isometry: An isometry is a transformation of the plane that preserves length.  For example, if the sides of an original pre-image triangle measure 3, 4, and 5, and the sides of its image after a transformation also measure 3, 4, and 5, the transformation has preserved length. 
             A direct isometry preserves orientation or order - the letters on the diagram go in the same clockwise or counterclockwise direction on the figure and its image.
             A non-direct or opposite isometry changes the order (such as clockwise changes to counterclockwise).
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Invariant: A figure or property that remains unchanged under a transformation of the plane is referred to as invariant (not varying).  It means no variations in the figure have occurred.

 

Opposite Transformation: An opposite transformation is a transformation that changes the orientation of a figure.  Reflections and glide reflections are opposite
transformations. 

For example, the original image, triangle ABC, has a clockwise orientation - the letters A, B and C are read in a clockwise direction.  After the reflection in the x-axis, the image triangle A'B'C' has a counterclockwise orientation - the letters A', B', and C' are read in a counterclockwise direction.

A reflection is an opposite transformation.
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Orientation: Orientation refers to the arrangement of points, relative to one another, after a transformation has occurred.  For example, reference made to the direction traversed (clockwise or counterclockwise) when traveling around a geometric figure is its orientation.   The "lettering" of the vertices may appear in the same order, or in reverse order, around the figure.
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orientpic
The reflection at the left, shows the original image, triangle ABC, with clockwise lettering (orientation) A, B and C in a clockwise direction.  After the reflection in the x-axis, the image triangle A'B'C' has a counterclockwise orientation - the letters A', B', and C' are read in a counterclockwise direction.




Position Vector: A position vector is a coordinate vector whose initial point is the origin.  Any vector can be expressed as an equivalent position vector by translating the vector so that it originates at the origin.



Rigid Transformation: A rigid transformation (or isometry) is a transformation of the plane that preserves length (distance). For example, if the sides of an original pre-image triangle measure 3, 4, and 5, and the sides of its image after a transformation measure 3, 4, and 5, the transformation preserved length.

 

Transformation: A transformation of the plane is a one-to-one mapping (or moving) of points in the plane to points in the plane. In the plane, a mapping will carry ordered pairs to new locations according to some specified rule.

 

Transformational Geometry: Transformational Geometry is a method for studying geometry that illustrates congruence and similarity by the use of transformations.




Vector: A vector is a quantity that has both magnitude and direction; represented geometrically by a directed line segment.



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