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In this lesson, the similarity of triangles will be used to prove some claims about triangles.
Catch-Up and Review
Here are a few recommended readings before getting started with this lesson.
- The Pythagorean Theorem
- The concept of similarity.
- Conditions for similarity of polygons.
- Conditions that guarantee the similarity of triangles.
Try your knowledge on these topics.
Which of the following conditions guarantee that two triangles are similar?
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Challenge
Solving Problems Using Triangle Similarity
The street lamps are and feet tall. How tall is the Grim Reaper?
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Explore
Investigating Triangle Proportionality
Move the point on the side of the triangle. The applet draws a line parallel to another side of the triangle and gives the length of four line segments.
- Move the vertices and investigate the relationship between these lengths. What do you notice?
- Explore different triangles in relation to the pyramids!
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Discussion
Triangle Proportionality Theorem
The previous exploration can lead to discovering the following claim, which is often referred to as the Side-Splitter Theorem.
Rule
Triangle Proportionality Theorem
If a segment parallel to one of the sides of a triangle is drawn between the other sides, the segment divides the other two sides proportionally.
Based on the diagram, the following relation holds true.
If then
Proof
Since and are parallel, by the Corresponding Angles Theorem, and are congruent. Similarly, and are congruent.
Pop Quiz
Practice Using the Triangle Proportionality Theorem
Example
Using the Triangle Proportionality Theorem to Draw Segments
In the following example the Triangle Proportionality Theorem can be used after rearranging the segments to form triangles. Given the segments on the diagram, construct a segment of length
Answer
Hint
Use that
Solution
Move the slider to rearrange the given line segments. Note that this can also be done on paper using a straightedge to draw straight lines, followed by using a compass to copy the segments.
Label the points on this rearranged graph, connect the endpoints of the segments of length and and draw a parallel line to this connecting line through the endpoint of the segment of length
This construction gave a segment of length
Discussion
Converse Triangle Proportionality Theorem
The converse of the Side-Splitter Theorem is also true.
If a segment is drawn between two sides of a triangle such that it divides the sides proportionally, the segment is parallel to the third side in the triangle.
Based on the diagram, the following relation holds true.
If then
Proof
The given proportion can be rearranged to get the proportionality of two sides of and
This means that is a dilation of from point with scale factor
A dilation moves a segment to a parallel segment, so the proof is complete.
If then
Example
Solving Problems With the Converse Triangle Proportionality Theorem
Show that is a parallelogram.
Hint
Draw the diagonals of quadrilateral
Solution
Draw diagonal of quadrilateral and focus on the two triangles and
This completes the proof that opposite sides of quadrilateral are parallel. Hence, by definition, it is a parallelogram.
Discussion
Three Parallel Lines Theorem
The following theorem is a corollary of the Side-Splitter Theorem.
If three parallel lines intersect two transversals, then they divide the transversals proportionally.
Applying the theorem to the diagram above, the following proportion can be written.
Proof
In the diagram, draw and let be the point of intersection between this segment and line
Pop Quiz
Practice Using the Three Parallel Lines Theorem
Example
Solving Problems Using the Three Parallel Lines Theorem
Construct points that divide the given segment into five congruent pieces.
Hint
Draw a different segment and extend it with four congruent copies.
Solution
Draw a ray starting at and use a compass to copy any length five times on this ray. This gives five points, and
Connect with the last point, and construct parallel lines to this segment through the other points. Mark the intersection points of these lines with segment
According to the Three Parallel Lines Theorem, these transversals divide segments and proportionally. Since, by construction, the segments on have equal length, this means that points and divide into congruent segments.
Explore
Investigating Inner Triangles of a Triangle
The examples until now were based on similar triangles generated by parallel lines. Is it possible to cut a triangle to two similar triangles using a line starting from a vertex?
Move the vertices and the point on the side of the triangle. It is possible to find an arrangement when the two inner triangles are similar to each other and to the original triangle. Find such a diagram.
Discussion
Right Triangle Similarity Theorem
The previous exploration can lead to the following claim.
Given a right triangle, if an altitude is drawn from the vertex of the right angle to the hypotenuse, then the two triangles formed are similar to the original triangle and to each other.
According to this theorem, there are three relations that hold true for the diagram above.
Proof
Start by showing separately the two triangles formed when the altitude dissects
By the Reflexive Property of Congruence, and Also, since all right angles are congruent, it is obtained that and
| and | and |
|---|---|
Applying the Angle-Angle (AA) Similarity Theorem, it can be concluded that and are similar, and and are similar. Then, by the Transitive Property of Congruence, and are also similar.
and
Discussion
Corollaries of the Right Triangle Similarity Theorem
The following two claims are corollaries of the Right Triangle Similarity Theorem
Rule
Geometric Mean Altitude Theorem
Given a right triangle, if an altitude is drawn from the vertex of the right angle to the hypotenuse, then the measure of this altitude is the geometric mean between the measures of the two segments formed on the hypotenuse.
Based on the given diagram and by the definition of the geometric mean, the following relation holds true.
or
Other names for the Geometric Mean Altitude Theorem are the Right Triangle Altitude Theorem and the Geometric Mean Theorem.
Proof
According to the Right Triangle Similarity Theorem, the two triangles formed by the altitude are similar.
Then, by definition of similar triangles, the lengths of corresponding sides are proportional.
Applying the Properties of Equality, this proportion can be rewritten without fractions.
Rule
Geometric Mean Leg Theorem
In a right triangle, if the altitude is drawn from the vertex of the right angle to the hypotenuse, then the measure of each leg of the triangle is the geometric mean between the length of the hypotenuse and the length of the segment formed on the hypotenuse adjacent to the leg.
Based on the given triangle, where the altitude is drawn from the vertex of the right triangle at to the hypotenuse at the following relations hold true.
Proof
According to the Right Triangle Similarity Theorem, the two triangles formed by the altitude are similar to
This means that the corresponding parts of the triangles can be identified.
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Then, by definition of similar triangles, the lengths of corresponding sides are proportional.
Note that for any two pairs of corresponding sides a similar proportion can be obtained. Now, applying the Properties of Equality, the proportion can be rewritten without fractions.
Example
Solving Problems With the Geometric Mean Leg Theorem
Represented on the figure is a right triangle and an altitude .
Using the given measurements, find the length of
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Hint
First, find the length of
Solution
The answer can be found in two steps. The first step is to find the length of
Finding
The Geometric Mean Leg Theorem shows the connection between the length of and
The length of can be expressed using the length of
SubstituteExpressions
Substitute expressions
▼
Rewrite
UseQuadForm
Use the Quadratic Formula:
▼
Evaluate right-hand side
CalcPowProd
Calculate power and product
AddTerms
Add terms
CalcRoot
Calculate root
WriteSumFrac
Write as a sum of fractions
CalcQuot
Calculate quotient
Finding
This gives the length of the other segment formed by the altitude in the right triangle
The Geometric Mean Altitude Theorem gives a connection between the length of and
Pop Quiz
Practice the Geometric Mean Leg Theorem
Discussion
Pythagorean Theorem
For right triangles, the length of the hypotenuse squared equals the sum of the squares of the lengths of the legs.
Proof
Using SimilarityFirst, draw the altitude from the right angle to the hypotenuse. This divides the hypotenuse into two segments.
Closure
Solving Problems Using Triangle Similarity
To conclude this lesson, the opening challenge will be revisited. The challenge shows a diagram consisting of the Grim Reaper and two street lamps at and feet tall. How tall is the Grim Reaper?
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Hint
The lamps, the head of the Grim Reaper, and the shadows of the Grim Reaper's head are on a straight line.
Solution
The lamps and the figure stand vertically. Hence, they can be represented by parallel segments and . Notice that the shadows just reach the lampposts. Taking a look at the shadow touching the taller post, it can be derived that the lamppost bottom the head of the Grim Reaper and the lamppost top are on a straight line. Applying this same logic to the other shadow implies that and are also on a straight line.
Segment splits both and It is also parallel to one side of both triangles. That means the combination of two dilations maps to
- A dilation with center and scale factor maps to
- A dilation with center and scale factor maps to
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