8.Bottom left corner at (0,0), rest of coordinates at (2, 0), (0, 2) and (2, 2) 9. Coordinates at (0,0), (0, 1), (5, 0) or (0,0), (1, 0), (0, 5) 10. Using.

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8.Bottom left corner at (0,0), rest of coordinates at (2, 0), (0, 2) and (2, 2) 9. Coordinates at (0,0), (0, 1), (5, 0) or (0,0), (1, 0), (0, 5) 10. Using Midpt Formula: E (0, 5) and F (6, 5) Distance Formula BC = 6 = EF 11. (0, 0), (0, 2m), (2m, 2m), (2m, 0) 12. (0, 0), (0, x), (3x, x), (3x, 0) 17. P = 2s + 2t units A = st square units 18. (n, n) 19. (p, 0) 24. Distance Formula: KL = 2; MP = 2; LM = 3; PK = 3 KM = KM (Reflex) SSS 25. You’re assuming figure has rt angle 26. a. BD = 38 in. CE = 24 in. b. B (24, 0) C (24, 28) D(24, 38) E(0, 38)

Warm Up 1. Find each angle measure. True or False. If false explain. 2. Every equilateral triangle is isosceles. 3. Every isosceles triangle is equilateral. 60°; 60°; 60° True False; an isosceles triangle can have only two congruent sides.

Recall that an isosceles triangle has at least two congruent sides. The congruent sides are called the legs. The vertex angle is the angle formed by the legs. The side opposite the vertex angle is called the base, and the base angles are the two angles that have the base as a side. 3 is the vertex angle. 1 and 2 are the base angles.

Example 1: The length of YX is 20 feet. Explain why the length of YZ is the same. Since YZX  X, ∆XYZ is isosceles by the Converse of the Isosceles Triangle Theorem. The mYZX = 180 – 140, so mYZX = 40°. Thus YZ = YX = 20 ft. The Isosceles Triangle Theorem is sometimes stated as “Base angles of an isosceles triangle are congruent.” Reading Math

Find mF. Example 2A: Finding the Measure of an Angle Thus mF = 79° mF = mD = x° Isosc. ∆ Thm. mF + mD + mA = 180 ∆ Sum Thm. x + x + 22 = 180 Substitute the given values. 2x = 158 Simplify and subtract 22 from both sides. x = 79 Divide both sides by 2.

Find mG. Example 2B: Finding the Measure of an Angle Thus mG = 22° + 44° = 66°. mJ = mG Isosc. ∆ Thm. (x + 44) = 3x Substitute the given values. 44 = 2x Simplify x from both sides. x = 22 Divide both sides by 2.

The following corollary and its converse show the connection between equilateral triangles and equiangular triangles.

Example 3A: Using Properties of Equilateral Triangles Find the value of x. ∆LKM is equilateral. (2x + 32) = 60 The measure of each  of an equiangular ∆ is 60°. 2x = 28 Subtract 32 both sides. x = 14 Divide both sides by 2. Equilateral ∆  equiangular ∆

Example 3B: Using Properties of Equilateral Triangles Find the value of y. ∆NPO is equiangular. Equiangular ∆  equilateral ∆ 5y – 6 = 4y + 12 Definition of equilateral ∆. y = 18 Subtract 4y and add 6 to both sides.

Prove that the segment joining the midpoints of two sides of an isosceles triangle is half the base. Example 4: Using Coordinate Proof Given: In isosceles ∆ABC, X is the mdpt. of AB, and Y is the mdpt. of AC. Prove: XY = AC. 1 2 A coordinate proof may be easier if you place one side of the triangle along the x-axis and locate a vertex at the origin or on the y-axis. Remember!

Proof: Draw a diagram and place the coordinates as shown. Example 4 Continued By the Midpoint Formula, the coordinates of X are (a, b), and Y are (3a, b). By the Distance Formula, XY = √4a 2 = 2a, and AC = 4a. Therefore XY = AC. 1 2

12. Angle add. m  ATB = 40°. m  BAT = 40° (Alt Int  s)  ATB   BAT (def of  ) Since ΔABT is isos by converse of isos Δ thm, BT = BA = 2.4 mi ° ° ° or 172°40. Two sides of a Δ are  iff the  s ° opp. those sides are  m  1= 58°; m  2 = 64°; m  3 = 122° 29. m  1= 127°; m  2 = 26.5°; m  3 = 53° 30.