An angle bisector of a triangle divides the opposite side of the triangle into segments 6 cm and 5cm long. A second side of the triangle is 6.9 cm long. Find the longest and shortest possible lengths of the third side of the triangle. Round answers to the nearest tenth of a centimeter.

Question

Mathematics

Samson Greer

7 July, 07:42

An angle bisector of a triangle divides the opposite side of the triangle into segments 6 cm and 5cm long. A second side of the triangle is 6.9 cm long. Find the longest and shortest possible lengths of the third side of the triangle. Round answers to the nearest tenth of a centimeter.

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Answers (1)

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Kaitlynn Sawyer · Answer 1

There is a not so well-known theorem that solves this problem.

The theorem is stated as follows:

"Each angle bisector of a triangle divides the opposite side into segments proportional in length to the adjacent sides" (Coxeter & Greitzer)

This means that for a triangle ABC, where angle A has a bisector AD such that D is on the side BC, then

BD/DC=AB/AC

Here either

BD/DC=6/5=AB/AC, where AB=6.9,

then we solve for AC=AB*5/6=5.75,

or

BD/DC=6/5=AB/AC, where AC=6.9,

then we solve for AB=AC*6/5=8.28

Hence, the longest and shortest possible lengths of the third side are

8.28 and 5.75 units respectively.