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Geometry.

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Presentation on theme: "Geometry."— Presentation transcript:

1 Geometry

2 Relationships in Triangles
Chapter 5 Relationships in Triangles

3 Section 5-4 Indirect Proof
Objective: Use indirect proof with algebra. Use indirect proof with geometry.

4 Section 5.3 Indirect Proof
Until now the proofs we have written have been direct proofs. Sometimes it is difficult or even impossible to find a direct proof. In that case it may be possible to reason indirectly. Indirect reasoning is commonplace in every day life.

5 Indirect Proof With Algebra
When using indirect reasoning, we assume that the conclusion is false and then show that this assumption leads to a contradiction of the hypothesis, or some other accepted fact, such as a definition, postulate, theorem, or corollary. Since all other steps in the proof are logical correct, the assumption has been proven false, so the original conclusion must be true. A proof of this type is called an indirect proof or a proof by contradiction.

6 Steps for writing an Indirect Proof
1. Assume that the conclusion is false. 2. Show that this assumption leads to a contradiction of the hypothesis, or some other fact, such as a definition, postulate, theorem, or corallary. 3. Point out that because the false conclusion leads to an incorrect statement, the original conclusion must be true.

7 Example: State the assumption you would make to start an indirect proof of each statement.
1.) If mA = 50, then mB = 40 Assume that mB ≠ 40

8 Example: State the assumption you would make to start an indirect proof of each statement.
2.) If EF = GH, then EF and GH aren’t parallel. Assume that EF and GH are parallel.

9 Example: State the assumption you would make to start an indirect proof of each statement.
2.) Given: AB || CD Prove: mA = mB Assume that mA ≠ mB.

10 Example: Given: n is an integer and n² is even Prove: n is even.
1.) Assume that n is odd. 2.) If n² = n x n, then odd x odd = odd. This contradicts the given information that n² is even. 3.) The assumption leads to the contradiction of the known fact that n² is even. Therefore, the assumption that n is odd must be false, which means that n is even must be true.

11 Example: Given: m1 ≠ m2 Prove: j || k 1.) Assume j || k.
2.) If j || k, then 1  2 because they are corresponding angles. Thus, m1 = m2. 3.) The assumption leads to the contradiction that m1 ≠ m2. Therefore, the assumption that j || k must be false. Therefore, j || k.

12 End of Section 5.4

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