Oliviarubinstein0idn
Answered

IDNLearn.com makes it easy to find the right answers to your questions. Our platform is designed to provide reliable and thorough answers to all your questions, no matter the topic.

Triangle [tex]\( XYZ \)[/tex] with vertices [tex]\( X(0,0), Y(0,-2), \)[/tex] and [tex]\( Z(-2, -2) \)[/tex] is rotated to create the image triangle [tex]\( X^{\prime}(0,0), Y^{\prime}(2,0), \)[/tex] and [tex]\( Z^{\prime}(2,-2) \)[/tex].

Which rules could describe the rotation? Select two options.

A. [tex]\( R_{0, 90^{\circ}} \)[/tex]
B. [tex]\( R_{0, 180^{\circ}} \)[/tex]
C. [tex]\( R_{0, 270^{\circ}} \)[/tex]
D. [tex]\( (x, y) \rightarrow (-y, x) \)[/tex]
E. [tex]\( (x, y) \rightarrow (y, -x) \)[/tex]

Sagot :

GinnyAnsweridn
Let's analyze the rotation of triangle [tex]\(XYZ\)[/tex] with vertices [tex]\(X(0,0)\)[/tex], [tex]\(Y(0,-2)\)[/tex], and [tex]\(Z(-2,-2)\)[/tex] to the image triangle [tex]\(X^{\prime}(0,0)\)[/tex], [tex]\(Y^{\prime}(2,0)\)[/tex], and [tex]\(Z^{\prime}(2,-2)\)[/tex].

Option 1: [tex]\(R_{0.9}, 90^{\circ}\)[/tex]
This option refers to some unconventional parameter [tex]\(0.9\)[/tex], which is unusual and does not standardly describe a normal rotation of 90 degrees. Thus, this rule does not seem correct.

Option 2: [tex]\(R_{0, 180^{\circ}}\)[/tex]
A [tex]\(180^{\circ}\)[/tex] rotation about the origin would transform [tex]\((x, y)\)[/tex] to [tex]\((-x, -y)\)[/tex]. Applying this to the vertices of the original triangle:
- [tex]\(X(0,0)\)[/tex] stays [tex]\((0,0)\)[/tex]
- [tex]\(Y(0,-2)\)[/tex] becomes [tex]\(Y'(0,2)\)[/tex]
- [tex]\(Z(-2,-2)\)[/tex] becomes [tex]\(Z'(2,2)\)[/tex]

These don't match the coordinates of the image triangle, so this rule is not correct.

Option 3: [tex]\(R_0, 270^{\circ}\)[/tex]
A [tex]\(270^{\circ}\)[/tex] rotation (or [tex]\(-90^{\circ}\)[/tex]) about the origin will transform [tex]\((x, y)\)[/tex] to [tex]\((y, -x)\)[/tex]. Applying this to the vertices:
- [tex]\(X(0,0)\)[/tex] becomes [tex]\((0,0)\)[/tex]
- [tex]\(Y(0,-2)\)[/tex] becomes [tex]\((2,0)\)[/tex]
- [tex]\(Z(-2,-2)\)[/tex] becomes [tex]\((2,-2)\)[/tex]

These match the coordinates of the image triangle exactly, so this is a valid rule.

Option 4: [tex]\((x, y) \rightarrow (-y, x)\)[/tex]
This rule represents a [tex]\(90^{\circ}\)[/tex] counterclockwise rotation, which transforms [tex]\((x, y)\)[/tex] to [tex]\((-y, x)\)[/tex]. Applying this:
- [tex]\(X(0,0)\)[/tex] becomes [tex]\((0,0)\)[/tex]
- [tex]\(Y(0,-2)\)[/tex] becomes [tex]\((2,0)\)[/tex]
- [tex]\(Z(-2,-2)\)[/tex] becomes [tex]\((2,-2)\)[/tex]

These also match the coordinates of the image triangle exactly, so this is another valid rule.

Option 5: [tex]\((x, y) \rightarrow (y, -x)\)[/tex]
This notation suggests transforming similarly to a [tex]\(270^{\circ}\)[/tex] rotation but in an unusual format. Let’s apply:
- [tex]\(X(0,0)\)[/tex] would go to [tex]\((0,0)\)[/tex]
- [tex]\(Y(0,-2)\)[/tex] would go to [tex]\((-2,0)\)[/tex]
- [tex]\(Z(-2,-2)\)[/tex] would go to [tex]\((-2,2)\)[/tex]

These results do not fit the image coordinates, so this rule is also incorrect.

Thus, the correct rules that describe the rotation are:

1. [tex]\( R_0, 270^{\circ} \)[/tex]
2. [tex]\( (x, y) \rightarrow (-y, x) \)[/tex]

The selected options are:
[tex]$ R_{0, 270^{\circ}} $[/tex]
[tex]$ (x, y) \rightarrow (-y, x) $[/tex]
Thank you for using this platform to share and learn. Keep asking and answering. We appreciate every contribution you make. Your questions find clarity at IDNLearn.com. Thanks for stopping by, and come back for more dependable solutions.