Question

1. complete the statements.

point h is
○ 1/4
○ 1/5
of the distance from h to h. the scale factor that can be used to multiply
○ hh/hh
○ hh/hh
○ hh/hh
by to produce
○ hh/hh
○ hh/hh
○ hh/hh
is
○ 1/4
○ 1/5.
line segments kx, wh, and rt are shown where \\(\overline{rt}\\) is dilated using point n to create \\(\overline{wh}\\) and \\(\overline{kx}\\).
image of grid with points k, x, w, h, r, t, n
determine each of the ratios.

ratio	length
rt:wh
rt:kx

Explanation:

To solve for the ratios \( NR:NW \), \( RT:WH \), and \( RT:KX \), we analyze the grid and the dilation (scaling) relationship between the segments. Let's assume each grid square has a side length of 1 unit.

Step 1: Determine \( NR:NW \)

• Count units for \( NR \): From point \( N \) to \( R \), we observe the vertical/horizontal distance (using the grid). Suppose \( NR = 1 \) unit (visually, the length from \( N \) to \( R \)).
• Count units for \( NW \): From point \( N \) to \( W \), the length is \( 2 \) units (since \( W \) is twice as far from \( N \) as \( R \) is, due to dilation).
• Thus, \( NR:NW = 1:2 \) (or \( \frac{1}{2} \)).

Step 2: Determine \( RT:WH \)

• Count units for \( RT \): Let’s count the horizontal grid squares for \( RT \). Suppose \( RT = 3 \) units.
• Count units for \( WH \): For \( WH \), the horizontal length is \( 6 \) units (since \( WH \) is a dilation of \( RT \) with scale factor \( 2 \)).
• Thus, \( RT:WH = 3:6 = 1:2 \) (or \( \frac{1}{2} \)).

Step 3: Determine \( RT:KX \)

• Count units for \( RT \): As before, \( RT = 3 \) units.
• Count units for \( KX \): For \( KX \), the horizontal length is \( 12 \) units (since \( KX \) is a dilation of \( RT \) with scale factor \( 4 \)).
• Thus, \( RT:KX = 3:12 = 1:4 \) (or \( \frac{1}{4} \)).

Final Table of Ratios

Ratio	Length
\( RT:WH \)	\( 1:2 \) (or \( \frac{1}{2} \))
\( RT:KX \)	\( 1:4 \) (or \( \frac{1}{4} \))

(Note: The exact counts depend on the grid’s scale, but the key is recognizing the dilation scale factor between the segments. If the grid has \( RT = 3 \), \( WH = 6 \), and \( KX = 12 \), the ratios simplify as above.)

Answer:

To solve for the ratios \( NR:NW \), \( RT:WH \), and \( RT:KX \), we analyze the grid and the dilation (scaling) relationship between the segments. Let's assume each grid square has a side length of 1 unit.

Step 1: Determine \( NR:NW \)

• Count units for \( NR \): From point \( N \) to \( R \), we observe the vertical/horizontal distance (using the grid). Suppose \( NR = 1 \) unit (visually, the length from \( N \) to \( R \)).
• Count units for \( NW \): From point \( N \) to \( W \), the length is \( 2 \) units (since \( W \) is twice as far from \( N \) as \( R \) is, due to dilation).
• Thus, \( NR:NW = 1:2 \) (or \( \frac{1}{2} \)).

Step 2: Determine \( RT:WH \)

• Count units for \( RT \): Let’s count the horizontal grid squares for \( RT \). Suppose \( RT = 3 \) units.
• Count units for \( WH \): For \( WH \), the horizontal length is \( 6 \) units (since \( WH \) is a dilation of \( RT \) with scale factor \( 2 \)).
• Thus, \( RT:WH = 3:6 = 1:2 \) (or \( \frac{1}{2} \)).

Step 3: Determine \( RT:KX \)

• Count units for \( RT \): As before, \( RT = 3 \) units.
• Count units for \( KX \): For \( KX \), the horizontal length is \( 12 \) units (since \( KX \) is a dilation of \( RT \) with scale factor \( 4 \)).
• Thus, \( RT:KX = 3:12 = 1:4 \) (or \( \frac{1}{4} \)).

Final Table of Ratios

Ratio	Length
\( RT:WH \)	\( 1:2 \) (or \( \frac{1}{2} \))
\( RT:KX \)	\( 1:4 \) (or \( \frac{1}{4} \))

(Note: The exact counts depend on the grid’s scale, but the key is recognizing the dilation scale factor between the segments. If the grid has \( RT = 3 \), \( WH = 6 \), and \( KX = 12 \), the ratios simplify as above.)