College

We appreciate your visit to Pentagon WFNSC is shown on the coordinate grid Pentagon WFNSC is dilated with the origin as the center of dilation using the rule x y. This page offers clear insights and highlights the essential aspects of the topic. Our goal is to provide a helpful and engaging learning experience. Explore the content and find the answers you need!

Pentagon WFNSC is shown on the coordinate grid. Pentagon WFNSC is dilated with the origin as the center of dilation using the rule (x, y)→(3x, 3y) to create pentagon pentagon W'F'N'S'C'. Which statement is true? Pentagon W'F'N'S'C' is larger than pentagon WFNSC because the scale factor is greater than 1. Pentagon W'F'N'S'C' is larger than pentagon WFNSC because the scale factor is less than 1. Pentagon W'F'N'S'C' is smaller than pentagon WFNSC because the scale factor is less than 1. Pentagon W'F'N'S'C' is smaller than pentagon WFNSC because the scale factor is greater than 1.

Pentagon WFNSC is shown on the coordinate grid Pentagon WFNSC is dilated with the origin as the center of dilation using the rule x y

Answer :

Option A. Pentagon W'F'N'S'C' is larger than pentagon WFNSC because the scale factor is greater than 1.

Transformation of a figure by dilation:

  • If a point (x, y) is dilated by a scale factor 'k', image point will be given by the rule,

(x, y) → (kx, ky)

  • If k > 1, image point will be larger than its preimage.
  • If k < 1, image point will be smaller than its image.

Given in the question,

  • A pentagon WFNSC is dilated following the rule of dilation as,

(x, y) → (3x, 3y)

Here, k > 3 which shows that the image will be larger than the preimage.

Therefore, pentagon W'F'N'S'C' will be larger than pentagon WFNSC because the scale factor is greater than 1.

Hence, Option A will be the answer.

Learn more about the transformation here,

https://brainly.com/question/19682392?referrer=searchResults

Thanks for taking the time to read Pentagon WFNSC is shown on the coordinate grid Pentagon WFNSC is dilated with the origin as the center of dilation using the rule x y. We hope the insights shared have been valuable and enhanced your understanding of the topic. Don�t hesitate to browse our website for more informative and engaging content!

Rewritten by : Barada

Answer:b

Step-by-step explanation: