Introduction Isosceles triangles can be seen throughout our daily lives in structures, supports, architectural details, and even bicycle frames. Isosceles.

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Introduction Isosceles triangles can be seen throughout our daily lives in structures, supports, architectural details, and even bicycle frames. Isosceles.

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Introduction Isosceles triangles can be seen throughout our daily lives in structures, supports, architectural details, and even bicycle frames. Isosceles triangles are a distinct classification of triangles with unique characteristics and parts that have specific names. In this lesson, we will explore the qualities of isosceles triangles. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts Isosceles triangles have at least two congruent sides, called legs. The angle created by the intersection of the legs is called the vertex angle. Opposite the vertex angle is the base of the isosceles triangle. Each of the remaining angles is referred to as a base angle. The intersection of one leg and the base of the isosceles triangle creates a base angle. 1.9.2: Proving Theorems About Isosceles Triangles

The following theorem is true of every isosceles triangle. Key Concepts, continued 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued Theorem Isosceles Triangle Theorem If two sides of a triangle are congruent, then the angles opposite the congruent sides are congruent. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued If the Isosceles Triangle Theorem is reversed, then that statement is also true. This is known as the converse of the Isosceles Triangle Theorem. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued Theorem Converse of the Isosceles Triangle Theorem If two angles of a triangle are congruent, then the sides opposite those angles are congruent. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued If the vertex angle of an isosceles triangle is bisected, the bisector is perpendicular to the base, creating two right triangles. In the diagram that follows, D is the midpoint of . 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued Equilateral triangles are a special type of isosceles triangle, for which each side of the triangle is congruent. If all sides of a triangle are congruent, then all angles have the same measure. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued Theorem If a triangle is equilateral then it is equiangular, or has equal angles. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued Each angle of an equilateral triangle measures 60˚ Conversely, if a triangle has equal angles, it is equilateral. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued Theorem If a triangle is equiangular, then it is equilateral. 1.9.2: Proving Theorems About Isosceles Triangles

Key Concepts, continued These theorems and properties can be used to solve many triangle problems. 1.9.2: Proving Theorems About Isosceles Triangles

Common Errors/Misconceptions incorrectly identifying parts of isosceles triangles not identifying equilateral triangles as having the same properties of isosceles triangles incorrectly setting up and solving equations to find unknown measures of triangles misidentifying or leaving out theorems, postulates, or definitions when writing proofs 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice Example 2 Determine whether with vertices A (–4, 5), B (–1, –4), and C (5, 2) is an isosceles triangle. If it is isosceles, name a pair of congruent angles. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 2, continued Use the distance formula to calculate the length of each side. Calculate the length of . 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 2, continued Substitute (–4, 5) and (–1, –4) for (x1, y1) and (x2, y2). Simplify. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 2, continued Calculate the length of . Substitute (–1, –4) and (5, 2) for (x1, y1) and (x2, y2). Simplify. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 2, continued Calculate the length of . Substitute (–4, 5) and (5, 2) for (x1, y1) and (x2, y2). Simplify. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 2, continued Determine if the triangle is isosceles. A triangle with at least two congruent sides is an isosceles triangle. , so is isosceles. 1.9.2: Proving Theorems About Isosceles Triangles

✔ Guided Practice: Example 2, continued Identify congruent angles. If two sides of a triangle are congruent, then the angles opposite the sides are congruent. ✔ 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 2, continued http://www.walch.com/ei/00171 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice Example 4 Find the values of x and y. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued Make observations about the figure. The triangle in the diagram has three congruent sides. A triangle with three congruent sides is equilateral. Equilateral triangles are also equiangular. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued The measure of each angle of an equilateral triangle is 60˚. An exterior angle is also included in the diagram. The measure of an exterior angle is the supplement of the adjacent interior angle. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued Determine the value of x. The measure of each angle of an equilateral triangle is 60˚. Create and solve an equation for x using this information. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued The value of x is 9. Equation Solve for x. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued Determine the value of y. The exterior angle is the supplement to the interior angle. The interior angle is 60˚ by the properties of equilateral triangles. The sum of the measures of an exterior angle and interior angle pair equals 180. Create and solve an equation for y using this information. 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued The value of y is 13. Equation Simplify. Solve for y. ✔ 1.9.2: Proving Theorems About Isosceles Triangles

Guided Practice: Example 4, continued http://www.walch.com/ei/00172 1.9.2: Proving Theorems About Isosceles Triangles