Question

In Figure $ \mathrm{AB}\left|\right|\mathrm{DE}, \mathrm{AB}=\mathrm{DE}, \mathrm{AC}\left|\right|\mathrm{DF}$ and $ \mathrm{AC}=\mathrm{DF}.$ Prove that $ \mathrm{BC}\left|\right|\mathrm{EF}$ and $ \mathrm{BC}=\mathrm{EF}$

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Answer 1

Step 1: Prove that $\mathrm{ABED}$ is a parallelogram.

Given: $\mathrm{AB}\left|\right|\mathrm{DE},\mathrm{AB}=\mathrm{DE},\mathrm{AC}\left|\right|\mathrm{DF}$ and $\mathrm{AC}=\mathrm{DF}.$

$\mathrm{AB}=\mathrm{DE}\mathrm{and}\mathrm{AB}\parallel \mathrm{DE}\left(\mathrm{Given}\right)$

A quadrilateral having equal and parallel opposite sides is a parallelogram.

Therefore, $\mathrm{ABED}$ is a parallelogram.

Step 2: Prove that $\mathrm{ADFC}$ is a parallelogram.

$\mathrm{AC}=\mathrm{DF}\mathrm{and}\mathrm{AC}\parallel \mathrm{DF}$ [ given ]

A quadrilateral having equal and parallel opposite sides is a parallelogram

Therefore, $\mathrm{ADFC}$ is a parallelogram.

Step 3: Prove the required conditions.

We can write that

$$\begin{gathered} \mathrm{AD}=\mathrm{BE}\mathrm{and}\mathrm{AD}\parallel \mathrm{BE}-\left(1\right)(\therefore \mathrm{ADEB}\mathrm{is}\mathrm{a}\mathrm{parallelogram}) \\ \mathrm{AD}=\mathrm{CF}\mathrm{and}\mathrm{AD}\parallel \mathrm{CF}-\left(2\right)(\therefore \mathrm{ADFC}\mathrm{is}\mathrm{a}\mathrm{parallelogram}) \end{gathered}$$

From equations $\left(1\right)$ and $\left(2\right)$

$\mathrm{BE}=\mathrm{CF}\mathrm{and}\mathrm{BE}\parallel \mathrm{CF}$

Hence proved that $\mathrm{BC}\left|\right|\mathrm{EF}$ and $\mathrm{BC}=\mathrm{EF}$.