Triangle Similarity Theorems
Triangle Similarity Theorems
When two triangles are similar (โผ), they have the exact same shape but not necessarily the same size. This means their corresponding angles are equal, and their corresponding sides are proportional.
Instead of checking all three angles and all three sides to prove two triangles are similar, you can use three shortcuts: the AA, SAS, and SSS similarity theorems.
The Three Similarity Theorems
1. Angle-Angle (AA) Similarity
If two angles of one triangle are congruent (equal in measure) to two angles of another triangle, then the two triangles are similar.
- Why it works: Since all angles in a triangle add up to 180โ, if two pairs of angles are equal, the third pair must automatically be equal.
2. Side-Angle-Side (SAS) Similarity
If two sides of one triangle are proportional to two sides of another triangle, and their included angles (the angles between the proportional sides) are equal, then the triangles are similar.
- Example: If DEABโ=DFACโ and โ A=โ D, then โณABCโผโณDEF.
3. Side-Side-Side (SSS) Similarity
If all three corresponding sides of two triangles are proportional, then the triangles are similar.
- Example: If DEABโ=EFBCโ=DFACโ, then โณABCโผโณDEF.
Proving Similarity with Parallel Lines
A common geometry scenario involves a line drawn parallel to one side of a triangle, creating a smaller triangle inside a larger one.
Problem: Prove โณABCโผโณADE where DEโฅBC (with D on side AB and E on side AC).
Proof: Because DE is parallel to BC, the corresponding angles are equal:
- โ ADE=โ ABC
- โ AED=โ ACB
Since two pairs of angles are equal, by the AA Similarity Theorem, โณABCโผโณADE. (Note: They also share โ A, which is another way to establish AA).
Practical Application: Indirect Measurement
Similar triangles are incredibly useful for finding distances that are hard to measure directly, like the height of a tall tree or building.
Example Problem: A 6-foot person casts a 4-foot shadow. At the same time, a tree casts a 20-foot shadow. Find the tree's height.
Solution: The sun's rays hit the ground at the same angle, creating two similar right triangles (AA Similarity). We can set up a proportion comparing the height to the shadow length:
Personโsย ShadowPersonโsย Heightโ=Treeโsย ShadowTreeโsย Heightโ
46โ=20xโ
To solve for x, cross-multiply:
4x=6ร20 4x=120 x=30
By using similar triangles, we easily find that the tree is 30 feet tall.