Singapore
Prove that the internal bisector of an angle of a triangle divides the opposite side internally in the ratio of the sides containing the angle.
Answer:
- We are given a ^@\triangle ABC^@ and ^@AD^@ is the angle bisector of ^@\angle A^@.
Now, construct ^@CE \parallel DA^@ as given in the figure below such that it meets ^@BA^@ produced at ^@E^@. - Since ^@CE \parallel DA^@,
^@\begin{align} & \angle DAC = \angle ACE && .....(1) \text{ (Alternate interior Angles)} \\ & \angle BAD = \angle AEC && .....(2) \text{ (Corresponding Angles)} \\ & \text{Also, } \angle BAD = \angle DAC && .....(3) \space (\because AD \text{ is bisector of } \angle A) \end{align}^@ - By eq ^@(1), \space (2)^@ and ^@(3)^@, we get,
^@\begin{align} &\angle ACE = \angle AEC \\ \implies & AC = AE && (\because \text {sides opposite to equal angles in a triangle are equal}) \end{align}^@ - Now in ^@\triangle BCE, DA \parallel CE^@,
^@\begin{align} &\implies \dfrac{ BD }{ DC } = \dfrac{ BA }{ AE } && \text{(by basic proportionality theorem)}\\ & \implies \dfrac{ BD }{ DC } = \dfrac{ AB }{ AC } \end{align}^@ - Hence, the internal bisector of an angle of a triangle divides the opposite side internally in the ratio of the sides containing the angle.
