Introduction to Truth-Functional/Propositional Logic: Deduction Part II

Introduction to Truth-Functional/Propositional Logic: Deduction Part II

Review: Logic of Categories = Categorical Logic. • All are…. • None are…. • Some are…. • Some are not…. All human beings are mortal. (All things identical with) LaRissa is a human being. Therefore, (all things identical with) Larissa is mortal

Representing the terms of claims symbolically All human beings are mortal. (All things identical with) LaRissais a human being. Therefore, (all things identical with) LaRissais mortal. All H are M. L is H. Therefore, L is M.

Square of Opposition • Contraposition (switch sub and pred terms & replace both with complementary terms): All things that are immortal are things unidentical with Larry. • Obversion(move horiz across square & replace pred term with complementary term): No things identical with Larry are things that are immortal. And then….. • Conversion (switch position of sub and pred terms): No things that are immortal are things identical with Larry. Therefore, (all things identical with) Larry is mortal

Truth-Function or Propositional Logic Proposition is a statement with a truth value of true or false. Logic of sentences or propositions or claims (not categories). We are in HUM 106 at this moment. We are in HUM 106 at this moment, and we are smoking salmon. If we are in LRC 105, at this moment, then we are studying material related to PHIL 1.

Claim variables, not term variables. We are in HUM 106 at this moment (P). Equivalent to P. We are in HUM 106 at this moment (P), and we are smoking salmon (S). Equivalentto P & S. If we are in HUM 106 at this moment (P), then we are smoking salmon (S). Equivalent to P → S. Either we are in HUM 105 at this moment (Q), or we are in HUM 106 (P). Equivalent to P ˇ Q.

Claim Variables, Truth Tables, and “Possible Worlds” We are in HUM 106 at this moment (P). P T F Negation (“it is not the case that”) symbolized by ~ Thus, ~P = “It is not the case that we are in HUM 106 at this moment.” P~P T F F T

P~P T F F T To “interpret” the truth table is to add content. It is raining outside. Andy says he is feeling chipper today. Alyssa works at Ace Hardware.

Conjunction = & (ampersand) Creates a compound claim from two or more simpler claims. And, while, but, even though, etc. We are in HUM 106 at this moment (P), and we are smoking salmon (S). P & S P S T T T F F T F F Both conjuncts must be true for the claims to be true. PS P & S TT T T F F F T F F FF

Disjunction = ˇ (wedge) Also creates a compound claim from two or more simpler claims. Or. Either we are in HUM 105 at this moment (Q), or we are in HUM 106 (P). P ˇ Q P Q T T T F F T F F A disjunction is false if and only if both disjuncts are false. P Q P ˇ Q T TT T F T F T T F FF

Conditional Claim = → “If….then…..” If we are in LRC 106 at this moment (P), then we are smoking salmon (S). P → S • P = the “antecedent.” • S = the “consequent.” P S T T T F F T F F A conditional is false if and only if its antecedent is true and its consequent is false. P S P →S T TT T F F F T T F FT

Exercise 10-1 • If Quincy learns to symbolize, Paula will be amazed. • Paula will teach him if Quincy pays her a big fee. • Paula will teach him only if Quincy pays her a big fee. • Only in Paula helps him will Quincy pass the course. • Quincy will pass the course if and only if Paula helps him.

Exercise 10-2 • If Parsons signs the papers then Quincy will go to jail, and Rachel will file an appeal. • If Parsons signs the papers, then Quincy will go to jail and Rachel will file an appeal. • If Parsons signs the papers and Quincy goes to jail, then Rachel will file an appeal. • Parsons signs the papers and if Quincy goes to jail Rachel will file an appeal. • If Parsons signs the papers then if Quincy goes to jail Rachel will file an appeal.

6. If Parsons signs the papers Quincy goes to jail, and if Rachel files an appeal Quincy goes to jail. 7. Quincy goes to jail if either Parsons signs the papers or Rachel files an appeal. 8. Either Parsons signs the papers or, if Quincy goes to jail, then Rachel will file an appeal. 9. If either Parsons signs the papers or Quincy goes to jail then Rachel will file an appeal. 10. If Parsons signs the papers then either Quincy will go to jail or Rachel will file an appeal.

Practicing with a Conditional If you have satisfactorily fulfilled the requirements described in the course syllabus, then you will earn a passing grade. What’s the symbolic expression? • P → S What’s the truth table for P and S? P S T T T F F T F F A conditional is false if and only if its antecedent is true and its consequent is false. So what’s the truth table for P → S? P S T T T F F T F F P →S T F T T

Practicing with a Conditional If scientist do not find a cure for baldness, John will always have a shiny head. ~P → S. To generate truth table, begin with simple claims. P=Scientists find a cure for baldness. S=John will always have a shiny head. P S T T T F F T F F Now add ~P P S~P TT T F FT FF

Now apply the rule of conditionals to generate ~P → S: A conditional is false if and only its antecedent is true and its consequent is false. P S ~P ~P → S T T F T F F F T T F F T P S ~P ~P → S T T F T T F F T F T TT F F T F

More Complicated Combinations If the McKay tract is approved, then the number of homeless camping in the forest will increase and the natural environment will be damaged. • P → (Q & R) vs. (P → Q) & R Simple claims: • P = The McKay tract is approved. • Q = The number of homeless camping in the forest will increase. • R = The natural environment will be damaged. The truth table must list all possible truth values for P, Q, and R. Building a truth table is getting tough!

What if there were a way to build truth tables easily? Claims with 1 letter have two possible combinations of truth values. Claims with 2 letters have four possible combinations of truth values. So….every time we add a letter, the number of T and F combinations doubles and so, therefore, the number of rows in the truth table doubles. So….r = 2n Then, alternate T’s and F’s in the right-most row until you have the correct number of rows. Then, alternate pairs of T’s and F’s in the next row to the left. Then, alternate sets of four T’s and four F’s in the next row to the left, and so on and so on. The left-most row will always be half T’s and half F’s.

If the McKay tract is approved, then the number of homeless camping in the forest will increase and the natural environment will be damaged. P → (Q & R) If r = 2n, then how many rows will the truth table have? 1st: Alternate T’s and F’s in the right-most row until you have the correct number of rows. P Q R T F T F T F T F

Then…. Then, alternate pairs of T’s and F’s in the next row to the left. Then, alternate sets of four T’s and four F’s in the next row to the left, and so on and so on. P QR T F T F T F T F

Now Apply the Rule of Conjunctives Both conjuncts must be true for the claims to be true. P Q R Q & R T T T T T F T F T T F F F T T F T F FF T F FF

P Q R Q & R T TTT T T F F T F T F T F FF F T TT F T F F F F T F F FFF

P Q R Q & RP → (Q&R) TTTT T T F F T F T F T F FF F T TT F T F F FF T F FFFF Now apply the rule of conditionals: A conditional is false if and only if its antecedent is true and its consequent is false.

If the McKay tract is approved, then the number of homeless camping in the forest will increase and the natural environment will be damaged. P Q R Q & R P → (Q&R) T TTTT T T F FF T F T F F T F FFF F T TTT F T F FT F F T F T F FFFT Now apply the rule of conditionals: A conditional is false if and only its antecedent is true and its consequent is false.

The Value of Truth Tables Generates all possible combinations of truth values for statements and combinations of statements. Allows you to test for validity with certainty. Validity: It is impossible for the conclusion to be false and premises to be true. An invalid argument is an illogical argument. An illogical argument is not a good argument.

Use a truth table to determine the validity or invalidity of this argument: “If building the bookshelf requires a screwdriver then I will not be able to build it. After reading the directions I see that a screwdriver is needed. So, I can’t build it.” First, translate this argument into standard form If S then not B S _ Not B S → ~B S _ ~B Now into symbols

S→~B S _ ~B Now, build a truth table. We have two claim variables, “S” and “~B” that each need a column. We need a column for each premise and the conclusion. S → ~B S ~B T T T F F T F F ~B

S → ~B S _ ~B • Now, fill in the truth values for the first premise based on the rule of the conditional: A conditional is false if and only if its antecedent is true and its consequent is false. S → ~B We’re done. Our truth table now tells us whether or not the argument is valid. What do you think? T F T T S ~B T T T F F T F F

Introduction to Truth-Functional/Propositional Logic: Deduction Part II

Introduction to Truth-Functional/Propositional Logic: Deduction Part II

Presentation Transcript

Decision Procedures An Algorithmic Point of View

Truth Functional Logic

Truth Table Method and Propositional Proofs

Propositional Logic

Artificial Intelligence: Planning

Introduction to Logic 3. lecture Propositional Logic Continuing

Decision Procedures An Algorithmic Point of View

Propositional Logic: Logical Agents (Part I)

PROPOSITIONAL LOGIC

Introduction to Logic

First-Order Logic

Propositional Logic

Propositional Logic Part1

Chapter 1: The Foundations: Logic and Proofs

Propositional Logic And First Order Logic.

Propositional and First-Order Logic

Reasoning Algorithms in Propositional Logic

Propositional Logic

First-Order Logic

FIRST ORDER LOGIC

INTRODUCTION TO SYMBOLIC LOGIC