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The following two-column proof proves that if a line is parallel to one side of a triangle, it also divides the other two sides proportionally.

\begin{tabular}{|l|l|}
\hline \multicolumn{1}{|c|}{ Statement } & \multicolumn{1}{|c|}{ Reason } \\
\hline 1. [tex]$\overline{DE} \| \overline{AC}$[/tex] & 1. Given \\
\hline 2. [tex]$\overline{AB}$[/tex] is a transversal that intersects two parallel lines. & 2. Conclusion from Statement 1. \\
\hline 3. [tex]$\angle BDE \cong \angle BAC$[/tex] & 3. Corresponding Angles Postulate \\
\hline 4. [tex]$\angle B \cong \angle B$[/tex] & 4. Reflexive Property of Equality \\
\hline 5. & 5. \\
\hline 6. [tex]$\frac{BD}{BA} = \frac{BE}{BC}$[/tex] & 6. Converse of the Side-Side-Side Similarity Theorem \\
\hline
\end{tabular}

Which statement and reason accurately complete the proof?

A. 5. [tex]$\triangle BDE \sim \triangle BAC$[/tex]; Angle-Angle (AA) Similarity Postulate

B. 5. [tex]$\angle BDE \sim \angle BAC$[/tex]; Angle-Angle (AA) Similarity Postulate

C. 5. [tex]$\angle BDE \sim \angle BAC$[/tex]; Side-Angle-Side (SAS) Similarity Postulate

D. 5. [tex]$\triangle BDE \sim \triangle BAC$[/tex]; Side-Angle-Side (SAS) Similarity Postulate

Sagot :

GinnyAnswer
To complete the two-column proof, we need to add the statement and reason in step 5. Here is the detailed solution.

Given:

1. \( \overline{DE} \parallel \overline{AC} \) (Given)

Based on this, we know:

2. \( \overline{AB} \) is a transversal that intersects two parallel lines. (Conclusion from Statement 1).

From the Corresponding Angles Postulate, we have:

3. \( \angle BDE \cong \angle BAC \) (Corresponding Angles Postulate)

By the Reflexive Property of Equality, we also have:

4. \( \angle B \cong \angle B \) (Reflexive Property of Equality)

Now, since we have two pairs of corresponding angles that are congruent (\( \angle BDE \cong \angle BAC \) and \( \angle B \cong \angle B \)), by the Angle-Angle (AA) Similarity Postulate, we can say:

5. \( \triangle BDE \sim \triangle BAC \) (Angle-Angle (AA) Similarity Postulate)

This ensures that the corresponding sides of these triangles are proportional.

Lastly, based on the similarity of the triangles, we can conclude:

6. \( \frac{BD}{BA} = \frac{BE}{BC} \) (Converse of the Side-Side-Side Similarity Theorem)

So, the completed two-column proof looks like this:

\begin{tabular}{|l|l|}
\hline \multicolumn{1}{|c|}{ Statement } & \multicolumn{1}{|c|}{ Reason } \\
\hline 1. [tex]$\overline{ DE } \| \overline { AC }$[/tex] & 1. Given \\
\hline 2. [tex]$\overline{ AB }$[/tex] is a transversal that intersects two parallel lines. & 2. Conclusion from Statement 1. \\
\hline 3. [tex]$\angle BDE \cong \angle BAC$[/tex] & 3. Corresponding Angles Postulate \\
\hline 4. [tex]$\angle B \cong \angle B$[/tex] & 4. Reflexive Property of Equality \\
\hline 5. [tex]$\triangle B D E \sim \triangle B A C$[/tex] & 5. Angle-Angle (AA) Similarity Postulate \\
\hline 6. [tex]$\frac{ BD }{ BA } = \frac{ BE }{ BC }$[/tex] & 6. Converse of the Side-Side-Side Similarity Theorem \\
\hline
\end{tabular}

Therefore, the accurate completion for statement 5 is:

[tex]\[ \boxed{5. \triangle BDE \sim \triangle BAC; \text{Angle-Angle (AA) Similarity Postulate}} \][/tex]
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