Geometric Mean in Right Triangles
Geometric Mean in Right Triangles
Before applying it to geometry, let's define the geometric mean. For any two positive numbers a and b, the geometric mean is the positive number x such that: xaโ=bxโ Solving for x, we get x2=ab, or x=abโ.
The Right Triangle Altitude Theorems
When you draw an altitude from the right angle of a right triangle to its hypotenuse, it divides the original triangle into two smaller triangles. Because they share complementary angles, all three triangles are similar to each other.
This similarity leads to two important geometric mean theorems:
1. The Altitude Rule The altitude drawn to the hypotenuse is the geometric mean of the two segments of the hypotenuse. Altitude=Segmentย 1รSegmentย 2โ
2. The Leg Rule Each leg of the right triangle is the geometric mean of the entire hypotenuse and the segment of the hypotenuse adjacent to that leg. Leg=Wholeย HypotenuseรAdjacentย Segmentโ
Example Problems
Example 1: Find the geometric mean of 3 and 12.
Using the formula for the geometric mean: x=3โ 12โ=36โ=6
Example 2: In right โณABC with altitude CD to hypotenuse AB, AD=4 and DB=9. Find CD, AC, and BC.
First, find the altitude CD using the Altitude Rule. CD is the geometric mean of the hypotenuse segments AD and DB: CD=4โ 9โ=36โ=6
Next, find the total length of the hypotenuse AB: AB=AD+DB=4+9=13
Now, find leg AC using the Leg Rule. AC is the geometric mean of the whole hypotenuse (AB) and its adjacent segment (AD): AC=13โ 4โ=213โ
Finally, find leg BC using the Leg Rule. BC is the geometric mean of the whole hypotenuse (AB) and its adjacent segment (DB): BC=13โ 9โ=313โ