Biconditional Statements Example 1: Examine the sentences below. Given: p: A polygon is a triangle. q: A polygon has exactly 3 sides. Problem: Determine the truth values of this statement: (p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q) https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/and.gif (q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p) The compound statement (p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q) https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/and.gif (q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p) is a conjunction of two conditional statements. In the first conditional, p is the hypothesis and q is the conclusion; in the second conditional, q is the hypothesis and p is the conclusion. Let's look at a truth table for this compound statement. p q p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p (p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q) https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/and.gif (q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p) T T T T T T F F T F F T T F F F F T T T In the truth table above, when p and q have the same truth values, the compound statement (p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q) https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/and.gif (q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p) is true. When we combine two conditional statements this way, we have a biconditional. Definition: A biconditional statement is defined to be true whenever both parts have the same truth value. The biconditional operator is denoted by a double-headed arrow https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif . The biconditional p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q represents "p if and only if q," where p is a hypothesis and q is a conclusion. The following is a truth table for biconditional p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q. p q p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q T T T T F F F T F F F T In the truth table above, p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q is true when p and q have the same truth values, (i.e., when either both are true or both are false.) Now that the biconditional has been defined, we can look at a modified version of Example 1. Example 1: Given: p: A polygon is a triangle. q: A polygon has exactly 3 sides. Problem: What does the statement p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q represent? Solution: The statement p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q represents the sentence, "A polygon is a triangle if and only if it has exactly 3 sides." Note that in the biconditional above, the hypothesis is: "A polygon is a triangle" and the conclusion is: "It has exactly 3 sides." It is helpful to think of the biconditional as a conditional statement that is true in both directions. Remember that a conditional statement has a one-way arrow ( https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif ) and a biconditional statement has a two-way arrow ( https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif ). We can use an image of a one-way street to help us remember the symbolic form of a conditional statement, and an image of a two-way street to help us remember the symbolic form of a biconditional statement. Let's look at more examples of the biconditional. Example 2: Given: a: x + 2 = 7 b: x = 5 Problem: Write a https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif b as a sentence. Then determine its truth values a https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif b. Solution: The biconditional a https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif b represents the sentence: "x + 2 = 7 if and only if x = 5." When x = 5, both a and b are true. When x https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/not_equal .gif 5, both a and b are false. A biconditional statement is defined to be true whenever both parts have the same truth value. Accordingly, the truth values of a https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif b are listed in the table below. a b a https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif b T T T T F F F T F F F T Example 3: Given: x: I am breathing y: I am alive Problem: Write x https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif y as a sentence. Solution: x https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif y represents the sentence, "I am breathing if and only if I am alive." Example 4: Given: r: You passed the exam. s: You scored 65% or higher. Problem: Write r https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif s as a sentence. Solution: r https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif s represents, "You passed the exam if and only if you scored 65% or higher." Mathematicians abbreviate "if and only if" with "iff." In Example 5, we will rewrite each sentence from Examples 1 through 4 using this abbreviation. Example 5: Rewrite each of the following sentences using "iff" instead of "if and only if." if and only if iff A polygon is a triangle if and only if it has exactly 3 sides. A polygon is a triangle iff it has exactly 3 sides. I am breathing if and only if I am alive. I am breathing iff I am alive. x + 2 = 7 if and only if x = 5. x + 2 = 7 iff x = 5. You passed the exam if and only if you scored 65% or higher. You passed the exam iff you scored 65% or higher. When proving the statement p iff q, it is equivalent to proving both of the statements "if p, then q" and "if q, then p." (In fact, this is exactly what we did in Example 1.) In each of the following examples, we will determine whether or not the given statement is biconditional using this method. Example 6: Given: p: x + 7 = 11 q: x = 5 Problem: Is this sentence biconditional? "x + 7 = 11 iff x = 5." Solution: Let p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q represent "If x + 7 = 11, then x = 5." Let q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p represent "If x = 5, then x + 7 = 11." The statement p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif q is false by the definition of a conditional. The statement q https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif p is also false by the same definition. Therefore, the sentence "x + 7 = 11 iff x = 5" is not biconditional. Example 7: Given: r: A triangle is isosceles. s: A triangle has two congruent (equal) sides. Problem: Is this statement biconditional? "A triangle is isosceles if and only if it has two congruent (equal) sides." Solution: Yes. The statement r https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif s is true by definition of a conditional. The statement s https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al.gif r is also true. Therefore, the sentence "A triangle is isosceles if and only if it has two congruent (equal) sides" is biconditional. ___________________________________________________________________________________________________ Summary: A biconditional statement is defined to be true whenever both parts have the same truth value. The biconditional operator is denoted by a double-headed arrow https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif . The biconditional p https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal.gif q represents "p if and only if q," where p is a hypothesis and q is a conclusion. ___________________________________________________________________________________________________ Exercises Directions: Read each question below. Select your answer by clicking on its button. Feedback to your answer is provided in the RESULTS BOX. If you make a mistake, choose a different button. 1. Given: a: y - 6 = 9 b: y = 15 Problem: The biconditional a https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal_transp.gif b represents which of the following sentences? Začátek formuláře (_) If y - 6 = 9, then y = 15. (_) y - 6 = 9 if and only if y = 15. (_) If y = 15, then y - 6 = 9. (_) None of the above. RESULTS BOX: _____________________________________________ Konec formuláře 2. Given: r: 11 is prime. s: 11 is odd. Problem: The biconditional r https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal_transp.gif s represents which of the following sentences? Začátek formuláře (_) If 11 is prime, then 11 is odd. (_) If 11 is odd, then 11 is prime. (_) 11 is prime iff 11 is odd. (_) None of the above. RESULTS BOX: _____________________________________________ Konec formuláře 3. Given: x https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al_transp.gif y y https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al_transp.gif x Problem: If both of these statements are true then which of the following must also true? Začátek formuláře (_) (x https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al_transp.gif y) https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/and.gif (y https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/condition al_transp.gif x) (_) x https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal_transp.gif y (_) x iff y (_) All of the above. RESULTS BOX: _____________________________________________ Konec formuláře 4. Given: m https://www.mathgoodies.com/sites/all/modules/custom/lessons/images/symbolic_logic/images/biconditi onal_transp.gif n is biconditional Problem: Which of the following is a true statement? Začátek formuláře (_) m is the hypothesis (_) m is the conclusion (_) n is a conditional statement (_) n is a biconditional statement RESULTS BOX: _____________________________________________ Konec formuláře 5. Which of the following statements is biconditional? Začátek formuláře (_) I am sleeping if and only if I am snoring. (_) Mary will eat pudding today if and only if it is custard. (_) It is raining if and only if it is cloudy. (_) None of the above. RESULTS BOX: _____________________________________________ Konec formuláře