Dentonboys03idn
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[tex]$\overline{XY}$[/tex] is dilated by a scale factor of 1.3 with the origin as the center of dilation to create the image [tex]$\overline{X^{\prime} Y^{\prime}}$[/tex]. If the slope and length of [tex]$\overline{XY}$[/tex] are [tex]$m$[/tex] and [tex]$/$[/tex] respectively, what is the slope of [tex]$\overline{X^{\prime} Y^{\prime}}$[/tex]?

A. [tex]$\quad 1.3 \times m$[/tex]

B. [tex]$1.3 \times 1$[/tex]

C. [tex]$\quad 1.3 \times (m + i)$[/tex]

D. [tex]$m$[/tex]

Sagot :

GinnyAnsweridn
To determine the slope of the dilated line [tex]\(\overline{X'Y'}\)[/tex], we need to understand how dilation affects various properties of geometric figures, particularly lines.

Dilation and Its Effect on a Line:
- Dilation is a transformation that resizes objects by a given scale factor from a specific point, known as the center of dilation.
- When a line segment is dilated with respect to the origin, the lengths of the segments change, but the orientation (i.e., the slope) remains the same.

Given the line segment [tex]\(\overline{XY}\)[/tex]:
- Original Slope [tex]\(m\)[/tex]: The slope of [tex]\(\overline{XY}\)[/tex] is given as [tex]\(m\)[/tex].
- Length: The actual length of [tex]\(\overline{XY}\)[/tex] is not directly specified but it is irrelevant to the slope.

Upon dilation by a scale factor of 1.3:
- The line segment [tex]\(\overline{XY}\)[/tex] is resized to form [tex]\(\overline{X'Y'}\)[/tex].
- Change in Length: The length of the new line segment [tex]\(\overline{X'Y'}\)[/tex] becomes 1.3 times the original length. However, the question does not ask about length but rather about the slope.
- Change in Slope: Dilation does not affect the slope of a line. This means the slope of [tex]\(\overline{X'Y'}\)[/tex] remains the same as the slope of [tex]\(\overline{XY}\)[/tex].

Therefore, the slope of [tex]\(\overline{X'Y'}\)[/tex] remains [tex]\(m\)[/tex].

Hence, the correct answer is:
[tex]\[ \text{D. } m \][/tex]
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