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Thinking Mathematically Logic 3.5 Equivalent Statements and Variation of Conditional Statements.

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Presentation on theme: "Thinking Mathematically Logic 3.5 Equivalent Statements and Variation of Conditional Statements."— Presentation transcript:

1 Thinking Mathematically Logic 3.5 Equivalent Statements and Variation of Conditional Statements

2 Equivalent Statements Equivalent compound statements aer made up of the same simple statements and have the same corresponding truth values for all true-false combinations of these simple statements.

3 Example: Equivalent Statements Exercise Set 3.5 #7 (p ^ q) ^ r p ^ (q ^ r)

4 A Conditional Statement and Its Equivalent Contrapositive p  q ≡ ~q  ~p The truth value of a conditional statement does not change if the antecedent and consequent are reversed and both are negated. The statement ~q  ~p is called the contrapositive of the conditional p  q.

5 Example: Contrapositive Exercise Set 3.5 #19 What is the contrapositive of If I am in Chicago, then I am in Illinois.

6 Converse and Inverse The converse and inverse are contrapositives (of each other) and are equivalent. They are not equivalent to the original conditional statement. q  p is the converse of p  q. ~p  ~q is the inverse of p  q.

7 Example: Converse and Inverse Exercise Set 3.5 #19, 21 –What is the converse/inverse of If I am in Chicago, then I am in Illinois. –What is the converse/inverse/contrapositive of If the stereo is playing, then I cannot hear you.

8 Conditional Statements Let p and q be statements. NameSymbolic Form Conditional p  q Converseq  p Inverse~p  ~q Contrapositive~q  ~p

9 Thinking Mathematically Logic 3.5 Equivalent Statements, Conditional Statements, and De Morgan’s Laws

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