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1 Copyright © Cengage Learning. All rights reserved.
5 Chapter Similar Triangles Copyright © Cengage Learning. All rights reserved.

2 Special Right Triangles
5.5 Special Right Triangles Copyright © Cengage Learning. All rights reserved.

3 THE 45°-45°-90° RIGHT TRIANGLE

4 The 45°-45°-90° Right Triangle
In the 45º-45º-90º triangle, the legs lie opposite the congruent angles and are also congruent. Rather than using a and b to represent the lengths of the legs, we use a for both lengths; see Figure 5.31. Figure 5.31

5 The 45°-45°-90° Right Triangle
By the Pythagorean Theorem, it follows that c2 = a2 + a2 c2 = 2a2 c = c =

6 The 45°-45°-90° Right Triangle
Theorem ( Theorem) In a right triangle whose angles measure 45°, 45°, and 90°, the legs are congruent and the hypotenuse has a length equal to the product of and the length of either leg.

7 Example 1 Find the lengths of the missing sides in each triangle in Figure 5.33. Figure 5.33

8 Example 1 – Solution a) The length of hypotenuse is , the product of and the length of either of the equal legs. b) Let a denote the length of and of . The length of hypotenuse is . Then = 6, so a = . Simplifying yields

9 Example 1 – Solution cont’d Therefore, DE = EF =  4.24.

10 THE 30°-60°-90° RIGHT TRIANGLE

11 The 30°-60°-90° Right Triangle
The second special triangle is the 30°-60°-90° triangle. Theorem ( Theorem) In a right triangle whose angles measure 30°, 60°, and 90°, the hypotenuse has a length equal to twice the length of the shorter leg, and the length of the longer leg is the product of and the length of the shorter leg.

12 Example 3 Study the picture proof of Theorem See Figure 5.35(a). Picture Proof Of Theorem Given: ABC with m A = 30°, m B = 60°, m C = 90°, and BC = a Prove: AB = 2a and AC = Figure 5.35(a)

13 Example 3 Proof: We reflect ABC across to form an equiangular and therefore equilateral ABD. As shown in Figures 5.35(b) and 5.35(c), we have AB = 2a. Figures 5.35

14 Example 3 cont’d To find b in Figure 5.35(c), we apply the Pythagorean Theorem. c2 = a2 + b2 (2a)2 = a2 + b2 4a2 = a2 + b2 3a2 = b2

15 Example 3 cont’d So b2 = 3a2 b = That is, AC =

16 The 30°-60°-90° Right Triangle
It would be best to memorize the sketch in Figure So that you will more easily recall which expression is used for each side, remember that the lengths of the sides follow the same order as the angles opposite them. Figure 5.36

17 The 30°-60°-90° Right Triangle
Thus,

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