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A parallelogram is transformed according to the rule [tex]\((x, y) \rightarrow(x, y)\)[/tex]. Which is another way to state the transformation?

A. [tex]\(R_{0,90^{\circ}}\)[/tex]

B. [tex]\(R_{0,180^{\circ}}\)[/tex]

C. [tex]\(R_{0,270^{\circ}}\)[/tex]

D. [tex]\(R_{0,360^{\circ}}\)[/tex]

Sagot :

GinnyAnswer
To determine which transformation corresponds to the rule [tex]\((x, y) \rightarrow (x, y)\)[/tex], let's analyze each option given, to understand their effects on points in the coordinate system.

1. [tex]\(R_{0,90^{\circ}}\)[/tex]: A rotation of [tex]\(90^{\circ}\)[/tex] counterclockwise around the origin. This transformation changes the coordinates [tex]\((x, y)\)[/tex] to [tex]\((-y, x)\)[/tex].

2. [tex]\(R_{0,180^{\circ}}\)[/tex]: A rotation of [tex]\(180^{\circ}\)[/tex] around the origin. This transformation changes the coordinates [tex]\((x, y)\)[/tex] to [tex]\((-x, -y)\)[/tex].

3. [tex]\(R_{0.270^{\circ}}\)[/tex]: A rotation of [tex]\(270^{\circ}\)[/tex] counterclockwise around the origin (or equivalently [tex]\(90^{\circ}\)[/tex] clockwise). This transformation changes the coordinates [tex]\((x, y)\)[/tex] to [tex]\((y, -x)\)[/tex].

4. [tex]\(R_{0,360^{\circ}}\)[/tex]: A rotation of [tex]\(360^{\circ}\)[/tex] around the origin. This transformation brings the point [tex]\((x, y)\)[/tex] back to its original position [tex]\((x, y)\)[/tex].

Given the rule [tex]\((x, y) \rightarrow (x, y)\)[/tex], it implies that the coordinates remain unchanged after the transformation.

Therefore, the transformation rule [tex]\((x, y) \rightarrow (x, y)\)[/tex] is equivalent to a rotation of [tex]\(360^{\circ}\)[/tex] around the origin. Thus, the correct notation for this transformation is:

[tex]\[ R_{0,360^{\circ}} \][/tex]

Hence, the answer is the transformation:

[tex]\[ R_{0,360^{\circ}} \][/tex]

which corresponds to the given result.
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