Introduction Geometry includes many definitions and statements. Once a statement has been shown to be true, it is called a theorem. Theorems, like definitions,

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Presentation transcript:

Introduction Geometry includes many definitions and statements. Once a statement has been shown to be true, it is called a theorem. Theorems, like definitions, can be used to show other statements are true. One of the most well known theorems of geometry is the Pythagorean Theorem, which relates the length of the hypotenuse of a right triangle to the lengths of its legs : Proving the Pythagorean Theorem Using Similarity

Introduction, continued The theorem states that the sum of the squares of the lengths of the legs (a and b) of a right triangle is equal to the square of the length of the hypotenuse (c). This can be written algebraically as a 2 + b 2 = c 2. The Pythagorean Theorem has many applications and can be very helpful when solving real-world problems. There are several ways to prove the Pythagorean Theorem; one way is by using similar triangles and similarity statements : Proving the Pythagorean Theorem Using Similarity

Key Concepts The Pythagorean Theorem The Pythagorean Theorem is often used to find the lengths of the sides of a right triangle, a triangle that includes one 90˚ angle : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued : Proving the Pythagorean Theorem Using Similarity Theorem Pythagorean Theorem The sum of the squares of the lengths of the legs (a and b) of a right triangle is equal to the square of the length of the hypotenuse (c). a 2 + b 2 = c 2

Key Concepts, continued In the triangle on the previous slide, angle C is 90˚, as shown by the square. The longest side of the right triangle, c, is called the hypotenuse and is always located across from the right angle. The legs of the right triangle, a and b, are the two shorter sides : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued It is also true that if the sum of the squares of the measures of two sides of a triangle equals the square of the measure of the longest side, then the triangle is a right triangle. This is known as the converse of the Pythagorean Theorem. To prove the Pythagorean Theorem using similar triangles, you must first identify the similar triangles : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued In this example, there is only one triangle given. Begin by drawing the altitude, the segment from angle C that is perpendicular to the line containing the opposite side, c. See the illustration on the following slide : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued Notice that by creating the altitude, we have created two smaller right triangles, and, within the larger given right triangle,. and are 90˚ and are therefore congruent. of is congruent to of because of the Reflexive Property of Congruence. According to the Angle-Angle (AA) Similarity Statement, if two angles of one triangle are congruent to two angles of another triangle, then the triangles are similar; therefore, : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued and are 90˚ and are therefore congruent. of is congruent to of because of the Reflexive Property of Congruence. Two angles in are congruent to two angles in ; therefore,. Similarity is transitive. Since and, then : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued Corresponding sides of similar triangles are proportional; therefore, and. Determining the cross products of each proportion leads to the Pythagorean Theorem : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued : Proving the Pythagorean Theorem Using Similarity cd = b 2 ce = a 2 cd + ce = a 2 + b 2 Add both equations. c(e + d) = a 2 + b 2 Factor. c 2 = a 2 + b 2 (e + d) is equal to c because of segment addition.

Key Concepts, continued The converse of the Pythagorean Theorem can be useful when proving right triangles using similar triangles : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued Types of Proofs Paragraph proofs are statements written out in complete sentences in a logical order to show an argument. Flow proofs are a graphical method of presenting the logical steps used to show an argument. In a flow proof, the logical statements are written in boxes and the reason for each statement is written below the box : Proving the Pythagorean Theorem Using Similarity

Key Concepts, continued Another accepted form of proof is a two-column proof. Two-column proofs include numbered statements and corresponding reasons that show the argument in a logical order. Two-column proofs appear in the Guided Practice examples that follow : Proving the Pythagorean Theorem Using Similarity

Common Errors/Misconceptions misidentifying the altitudes of triangles incorrectly simplifying expressions with square roots : Proving the Pythagorean Theorem Using Similarity

Guided Practice Example 2 Find the length of the altitude, x, of : Proving the Pythagorean Theorem Using Similarity

Guided Practice: Example 2, continued 1.Identify the similar triangles. is a right triangle. The altitude of is drawn from right to the opposite side, creating two smaller similar triangles : Proving the Pythagorean Theorem Using Similarity

Guided Practice: Example 2, continued 2.Use corresponding sides to write a proportion containing x : Proving the Pythagorean Theorem Using Similarity Substitute values for each side. (x)(x) = (10)(18)Find the cross products. x 2 = 180Simplify. Take the positive square root of each side.

Guided Practice: Example 2, continued 3.Summarize your findings. The length of the altitude, x, of is units, or approximately 13.4 units : Proving the Pythagorean Theorem Using Similarity ✔

Guided Practice: Example 2, continued : Proving the Pythagorean Theorem Using Similarity

Guided Practice Example 3 Find the unknown values in the figure : Proving the Pythagorean Theorem Using Similarity

Guided Practice: Example 3, continued 1.Identify the similar triangles. is a right triangle. The altitude of is drawn from right to the opposite side, creating two smaller similar triangles : Proving the Pythagorean Theorem Using Similarity

Guided Practice: Example 3, continued 2.Use corresponding sides to write a proportion containing c : Proving the Pythagorean Theorem Using Similarity Substitute values for each side. (8)(6) = (c)(4.8)Find the cross products. 48 = 4.8cSimplify. c = 10Solve for c.

Guided Practice: Example 3, continued 3.Use corresponding sides to write a proportion containing e : Proving the Pythagorean Theorem Using Similarity Substitute values for each side. (e)(6) = (8)(4.8)Find the cross products. 6e = 38.4Simplify. e = 6.4Solve for e.

Guided Practice: Example 3, continued 4.Use corresponding sides to write a proportion containing f : Proving the Pythagorean Theorem Using Similarity Substitute values for each side. (4.8)(6) = (8)(f )Find the cross products = 8fSimplify. f = 3.6Solve for f.

Guided Practice: Example 3, continued 5.Summarize your findings. The length of c is 10 units. The length of e is 6.4 units. The length of f is 3.6 units : Proving the Pythagorean Theorem Using Similarity ✔

Guided Practice: Example 3, continued : Proving the Pythagorean Theorem Using Similarity