Logic

1. Inductive Reasoning, Deductive Reasoning, and False Premise Logic

2. How would you go about solving this case? “There has been a murder done, and the murderer was a man. He was more than 6 feet high, was in the prime of life, had small feet for his height, wore coarse, square-toed boots and smoked a Trichinopoly cigar.” –Doyle

3. Logic – The science of correct reasoning. • Reasoning – The drawing of inferences or conclusions from known or assumed facts. When solving a problem, one must understand the question, gather all pertinent facts, analyze the problem i.e. compare with previous problems (note similarities and differences), perhaps use pictures or formulas to solve the problem. Problem Solving

4. Arguments • An argument is a series of statements, one of which is offered as a statement to be supported, and the rest of which are offered as support. • A conclusion is a statement to be supported. • A premise is a statement that offers support.

5. Major Premise: contains the major term All bird feathers are light. Minor Premise: contains the minor term Parrot is a bird. Premises

6. Major Premise: All bird feathers are light. Minor Premise: Parrot is a bird. Conclusion: Hence, parrots have light feathers. premises

7. Every triangle has three sides. The figure drawn here is a triangle. So, the figure drawn here is a triangle and has three sides.  Earth is a planet. All planets revolve around the sun. Therefore, earth revolves around the sun.  Identify the Major and Minor Premises

8. To get a degree, one must have 120 credits. John has 130 credits. Hence, John has a degree.  I am a man. All men must die. Therefore, I must die. Identify the Major and minor premises

9. Deductive Reasoning • Deductive Reasoning – A type of logic in which one goes from a general statement to a specific instance. • The classic example All men are mortal. (major premise) Socrates is a man. (minor premise) Therefore, Socrates is mortal. (conclusion)

10. Deductive Reasoning Examples: All students eat pizza. Claire is a student at ASU. Therefore, Claire eats pizza. All athletes work out in the gym. Barry Bonds is an athlete. Therefore, Barry Bonds works out in the gym.

11. Deductive Reasoning All math teachers are over 7 feet tall. Mr. D. is a math teacher. Therefore, Mr. D is over 7 feet tall. • The argument is valid, but is certainly not true. • The above examples are of the form If p, then q. (major premise) x is p. (minor premise) Therefore, x is q. (conclusion)

12. Deductive Reasoning • Syllogism: An argument composed of two statements or premises (the major and minor premises), followed by a conclusion. All men are mortal. (major premise) Socrates is a man. (minor premise) Therefore, Socrates is mortal. (conclusion) The above is an example of a syllogism.

13. Deductive Reasoning • What does valid mean? • What does invalid mean? • For any given set of premises, if the conclusion is guaranteed, the arguments is said to be valid. • If the conclusion is not guaranteed (at least one instance in which the conclusion does not follow), the argument is said to be invalid. • BE CARFEUL, DO NOT CONFUSE TRUTH WITH VALIDITY!

14. Validity In other words: • A valid argument is one in which it is impossible for the premises to be true while the conclusion is false—i.e., if the premises are true, then the conclusion must be true as well. • An invalid argument is one in which it is possible for the premises to be true while the conclusion is false.

15. A fallacy is an error in the reasoning process whereby the connection between the premises and the conclusion is not what has been claimed. False premise: statement that is false Fallacy

16. False premises:Mickey mouse is a catAll cats have 7 legsFalse Conclusion:Mickey mouse has 7 legs Valid Conclusion False premises

17. (1) All San Franciscans are seven feet tall (2) Jean Jones is a San Franciscan. (3) (Therefore) Jean Jones is seven feet tall. Valid Conclusion False premises

18. (1) All men are mortaL (2) Socrates is a  man. (3) (Therefore) Jean Jones is seven feet tall. Invalid Conclusion False premises

19. Truth of Statements, Validity of Reasoning Peter Suber, Philosophy Department, Earlham College

20. Truth of Statements, Validity of Reasoning

21. Venn Diagrams • Venn Diagram: A diagram consisting of various overlapping figures contained in a rectangle called the universe. U This is an example of all A are B. (If A, then B.) B A

22. Venn Diagrams This is an example of No A are B. U A B

23. Venn Diagrams This is an example of some A are B. (At least one A is B.) The yellow oval is A, the blue oval is B.

24. Example • Construct a Venn Diagram to determine the validity of the given argument. All smiling cats talk. The Cheshire Cat smiles. Therefore, the Cheshire Cat talks. VALID OR INVALID???

25. ExampleValid argument; x is Cheshire Cat Things that talk Smiling cats x

26. Examples • No one who can afford health insurance is unemployed. All politicians can afford health insurance. Therefore, no politician is unemployed. VALID OR INVALID?????

27. Examples X=politician. The argument is valid. People who can afford Health Care. Politicians X Unemployed

28. Example • Some professors wear glasses. Mr. Einstein wears glasses. Therefore, Mr. Einstein is a professor. Let the yellow oval be professors, and the blue oval be glass wearers. Then x (Mr. Einstein) is in the blue oval, but not in the overlapping region. Is the argument valid or invalid? The argument is invalid.

29. Deductive reasoning • What does decreasing mean? • D=Decreasing (from broad to specific) • Broad= all mountains • Specific= Sewanee mountain • Cone:

30. Inductive Reasoning Inductive Reasoning, involves going from a series of specific cases to a general statement. The conclusion in an inductive argument is never guaranteed. Example: What is the next number in the sequence 6, 13, 20, 27,… There is more than one correct answer.

31. Inductive Reasoning • Here’s the sequence again 6, 13, 20, 27,… • Look at the difference of each term. • 13 – 6 = 7, 20 – 13 = 7, 27 – 20 = 7 • Thus the next term is 34, because 34 – 27 = 7. • However what if the sequence represents the dates. Then the next number could be 3 (31 days in a month). • The next number could be 4 (30 day month) • Or it could be 5 (29 day month – Feb. Leap year) • Or even 6 (28 day month – Feb.)

32. Inductive • What does Increasing mean? • I= Increasing (from specific to broad) • Specific- I love The Hunger Games. • Broad- I love all movies • Volcano/ Mountain

33. Deductive reasoning is the process of reasoning from known facts to conclusions. When you reason deductively, you can say “therefore” with certainty. If your facts were firm to begin with, then your conclusions will also befirm. ExampleKnown Fact: The cut-off date for swim camp registration is June 15. After that date, kids go on a wait list - no exceptions allowed.Known Fact: You have missed the cut-off to date to register your child by two days.Conclusion: Your child won’t be registered and her name will go on the wait list. Deductive vs. inductive

34. Inductive reasoning is the process of going from observations to conclusions. This type of conclusion is sometimes called an inference. Successful inductive reasoning depends on the quality of your observations, or evidence. ExampleObservation: Tonya is seen walking from her car to her home with a set of golf clubs.Observation: Tonya’s husband Jeff loves golf and tomorrow is his birthday.Conclusion (inference): Tonya has bought the set of golf clubs for Jack. Deductive vs. inductive

35. Can you see the difference? Deductive reasoning drives you to a conclusion based on known facts. Inductive reasoning depends on human observation. Tonya, after all, may be borrowing the golf clubs. Or she may have taken up golf herself! You wouldn’t know unless you observed carefully, and even then, you would have to describe your conclusion as “probable” but not firm. Deductive vs. inductive

36. This risk of uncertainty in inductive reasoning is why crime scene investigators must ensure that they have gathered many observations (evidence) before drawing a conclusion. However, here’s something interesting. Once CSI’s have biological evidence of a person at the scene, they can switch back to deductive reasoning. If it is a known fact that someone’s fingerprints or DNA identify him or her, then it can be deduced that fingerprint or DNA evidence at the scene proves the person was there. So that’s it. Deductive and inductive. It takes both types of reasoning help us move around this world. Deductive vs. inductive

37. Deductive or Inductive? 1) • major premise: All tortoises are vegetarians • minor premise: Bessie is a tortoise • conclusion: Therefore, Bessie is a vegetarian 2) • Boss to employee: “Biff has a tattoo of an anchor on his arm. He probably served in the Navy.” Deductive Inductive

38. Do the following use inductive or deductive reasoning (write “I” for inductive and “D” for deductive: ____ 3. All cats have fur. Xena is a cat. Therefore, Xena has fur. ____ 4. Some horses are big. All horses have tails. Therefore, anything with a tail is big. ____ 5. All humans have a nose. Bobby is human. Therefore, Bobby has a nose.

39. Suppose every place in the world that people live is represented by the blue space inside the rectangle. Suppose the long pink oval represents all the wooden houses in the world. And, suppose the green circle represents Canada. The most logical conclusion one can draw from the figure is: all wooden houses are found in Canada Everyone lives in a wooden house Some Canadians live in wooden houses No one lives in Canada Deductive Reasoning#6

40. Suppose the following statements are all true: Person L is shorter than person X Person Y is shorter than person L Person M is shorter than person Y What additional piece of information would be required to conclude that “Person Y is shorter than Person J”? Person L is taller than J Person X is taller than J Person J is taller than L Person J is taller than M Person M is taller than Y deductive reasoning#7 Solution: Answer C M < Y < L < X So, if J is taller than L, Y must be shorter than J

41. A mother wants to order one large pizza, with exactly 5 toppings for her three picky children. She can choose from 7 toppings; cheese, mushrooms, olives, ham, sausage, onions, and pineapple. Fifi says there has to be pineapple Mona says there cannot be any olives Rex says that if there is going to be sausage, then there has to be ham too. Which combination of toppings should she select if she is to satisfy all three children’s combined demands? pineapple, onions, cheese, mushrooms, sausage cheese, sausage, ham, olives, pineapple cheese, mushrooms, ham, onions, pineapple sausage, mushrooms, onions, cheese, and ham. deductive reasoning#8

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