Introduction to Methods of Proof in Mathematics

Explore the methods of proof in mathematics through direct and indirect proofs, common symbols, set notations, and theorems. Learn how to prove or disprove statements using logical reasoning and examples. Enhance your understanding of mathematical reasoning and application in various problem-solving scenarios.

• Mathematics
• Proof Methods
• Logical Reasoning
• Theorems
• Mathematical Analysis

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1. MAT 3100 Introduction to Proof 03 Methods of Proof I http://myhome.spu.edu/lauw

2. I cannot see some of the symbols in PPT and HW! Download the trial version of MATH TYPE equation edition from design science http://www.dessci.com/en/products/math type/trial.asp

3. Preview of Reviews Set up common notations. Direct Proof Counterexamples Indirect Proofs - Contrapositive

4. Recall: Common Symbols and Set Notations Integers This is an example of a Set: a collection of distinct unordered objects. Members of a set are called elements. 2,3 are elements of , we use the notations 2 , 3 2,3 = { , 3, 2, 1,0,1,2,3, }

5. Background: Common Symbols Implication Example = + = If x 2 then 2 3 5 x x + = ( ) ( ) = 3 5 x

6. Goals We will look at how to prove or disprove Theorems of the following type: If ( ), then ( ). statements statements Direct Proofs Indirect proofs

7. Theorems Example: 2 If is odd, then m is also odd. m

8. Theorems Example: 2 If is odd, then m is also odd. m Conclusion Hypothesis m Underlying assumption:

9. Example 1 2 If is odd, then m is also odd. m Analysis Proof

10. Note Keep your analysis for your HW Do not type or submit the analysis

11. Direct Proof 2 If is odd, then m is also odd. m Direct Proof of If-then Theorem Restate the hypothesis of the result. Restate the conclusion of the result. Unravel the definitions, working forward from the beginning of the proof and backward from the end of the proof. Figure out what you know and what you need. Try to forge a link between the two halves of your argument.

12. Example 2 m n + If is odd and is even, then m is odd. n Analysis proof

13. Pause Here Classwork

14. Counterexamples To disprove ( ) x P x we simply need to find one number x in the domain of discourse that makes false. Such a value of x is called a counterexample ( ) P x

15. Example 3 + n N , 2 1 is prime n Analysis The statement is false

16. Example 4 + If 3 2 is odd, then is also odd. n n

17. Indirect Proof: Contrapositive To prove + If 3 2 is odd, then is also odd. n n we can prove the equivalent statement in contrapositive form: n+ If is n odd, then 3 not 2 is no t od d. or n+ If is n even , th en 3 2 is en. ev

18. Rationale Why? + If 3 If is n 2 is odd, then is also odd. odd, then 3 not n n n+ 2 is no t od d.

19. Recall: Negation Statement: n is odd Negation of the statement: n is not odd Or: n is even

20. Recall: Negation Notations : is odd ~ : is not od P n P n d

21. Contrapositive The contrapositive form of If then P Q is If ~ then ~ Q P

22. Example 4 + If 3 2 is odd, then is also odd. n n Analysis Proof: We prove the contrapositive: If is even, then 3 n n+ 2 is even.

23. Contrapositive + If 3 2 is odd, then is also odd. n n Analysis Proof by Contrapositive of If-then Theorem Restate the statement in its equivalent contrapositive form. Use direct proof on the contrapositive form. State the origin statement as the conclusion.

24. Group Explorations 03 Very fun to do. Keep your voices down you do not want to spoil the fun for the other groups.