Transformations

& Symmetry Essay, Research Paper


What is transformation? Transformation is a one-to-one function from one plane on to


another plane or to a different area on the same plane. A transformation describes a change in


appearance of points in a plane. It is a transfer from the pre-image to the image. There are


many types of transformations that I will be describing.


The first type of transformation is known as a reflection. A reflection maps each point


from one plane and creates it on another plane in the same manner and order. One of the main


characteristics of reflection is reverse orientation. This means that whatever order the points


were in, they transformed to be the opposite. This concept is the same as when you look into a


mirror, all the points are reversed.


Another type of transformation is known as translation. A translation is a transformation


formed by the composition of two reflections in which the lines of the reflection are parallel.


According to my understanding of this concept, in order to have the lines parallel, the figures


must be placed side by side. In this type of transformation the orientation of the figure is


changed but then changed back. The first reflection reverses the orientation, then the second


reflection reverses it back to the way it first was. When you have more than one transformation


of one figure you are then, performing a composition of transformations.


The third type of translation is called a rotation. A rotation is a transformation formed


by the composition of two reflections in which the lines of reflection intersect. This is


accomplished by using two reflections or a composition. The concept of this transformation is


that it is reflected at an angle, therefore causing the perpendicular lines to intersect at a single


point, sort of like a glass prism.


Another type of transformation is known as a dilation. A dilation is known as a


transformation that expands or contracts the points of the plane in relation to a fixed point.


This expansion or contraction is depicted by a ratio or also known as a scale factor. The


change in size of the figure depends upon the scale factor. All the angles in the figure keep the


same measure, therefore the figures should have the same shape but no longer the same size.


Figures that are the same shape but not the same size are known as similar figures.


One

more type of transformation is known as an isometric transformation. An isometric


transformation is one that preserves distance. Saying that it preserves distance means that the


figure is always exactly the same size as the pre-image. Examples of isometry are reflection,


translation and rotation. To keep an image the same throughout some properties must be


preserved such as distance, collinearity of points, betweenness of points, angle measure, and


parallelism. These must all be considered when working with isometry. A dilation is not


isometric for a number of reasons. First of all, dilations do not preserve distance and therefore


cannot be isometries. The only reason that dilations would be considered to be isometric would


be because they preserve shape, but they do not preserve size either. A dilation can only


produce similar figures while a transformation that preserves size and shape can produce an


isometry.


There is a certain form of a reflection that is known as symmetry. A figure has line


symmetry when each half of the figure is the image of the other half under some reflection in a


line. This line is called the axis of symmetry. An example of line symmetry is when you place a


half of a seashell on a mirror, the shell is mirrored so that it coincides with the actual shell. The


mirror, in this example would be the axis of symmetry.


Symmetry can also be achieved by a concept known as rotational symmetry. A figure


has rotational symmetry when the image of the figure coincides with the figure after a rotation.


The amount of rotation must be less than 360 degrees. An example of this is a starfish. You


can turn it and it will still have the same basic starfish shape, therefore depicting rotational


symmetry.


One last type of symmetry is called point symmetry. Point symmetry is actually


rotational symmetry but only of 180 degrees. This means that an object or figure can be rotated


180 degrees and appear the same. An example of this is a football.


This chapter had alot of information in it that was hard to understand, but with


concentration and determination, it became easier. There are many laws that are important to


these concepts and they must all be considered to be sure that you have reached teh correct


answer. This report was a learning experience and helped me to understand the concepts of


transformations and symmetry.

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