1 / 22

2.1 Conditional Statements

2.1 Conditional Statements. Mr. Robinson Geometry Fall 2011. Essential Question:. How do you recognize and use conditional statements? What are other important postulates?. Conditional Statement. A logical statement with 2 parts 2 parts are called the hypothesis & conclusion

gada
Download Presentation

2.1 Conditional Statements

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 2.1 Conditional Statements Mr. Robinson Geometry Fall 2011

  2. Essential Question: • How do you recognize and use conditional statements? • What are other important postulates?

  3. Conditional Statement • A logical statement with 2 parts • 2 parts are called the hypothesis & conclusion • Can be written in “if-then” form; such as, “If…, then…”

  4. Conditional Statement • The Hypothesis is part of the conditional that COULD happen. It usually follows after the IF. • The Conclusion is the part of the conditional that results from the hypothesis. It follows after the THEN.

  5. Ex: Underline the hypothesis & circle the conclusion. • If it snows, then school is canceled. hypothesis conclusion

  6. Ex: Rewrite the statement in “if-then” form • Vertical angles are congruent. If there are 2 vertical angles, then they are congruent. If 2 angles are vertical, then they are congruent.

  7. Ex: Rewrite the statement in “if-then” form • An object weighs one ton if it weighs 2000 lbs. If an object weighs 2000 lbs, then it weighs one ton.

  8. When is a Conditional True??? Your mom promises: “If you make an A in Geometry, she will give you $100.” You make an A, she pays $100. You make an A, she doesn’t pay $100. You don’t make an A, she pays $100. You don’t make an A, she doesn’t pay $100.

  9. When is a Conditional True???

  10. Counterexample • Used to show a conditional statement is false. • It must keep the hypothesis true, but the conclusion false! • It must keep the hypothesis true, but the conclusion false! • It must keep the hypothesis true, but the conclusion false!

  11. Ex: Find a counterexample to prove the statement is false. • If x2=81, then x must equal 9. counterexample: x could be -9 because (-9)2=81, but x≠9.

  12. Negation • Writing the opposite of a statement. • Ex: negate x=3 x≠3 • Ex: negate t>5 t 5

  13. Ex: Venn Diagrams for hypothesis & conclusion. School is Canceled Snow “If it snows, then school is canceled.”

  14. Converse • Switch the hypothesis & conclusion parts of a conditional statement. • Ex: Write the converse of “If it snows, then school is canceled.” If school is canceled, then it has snowed.

  15. Inverse • Negate the hypothesis & conclusion of a conditional statement. • Ex: Write the inverse of “If it snows, then school is canceled.” If it has not snowed, then school has not been canceled.

  16. Contrapositive • Negate, then switch the hypothesis & conclusion of a conditional statement. • Ex: Write the contrapositive of “If it snows, then school is canceled.” If school has not been canceled, then it has not snowed.

  17. Conditional Equivalence • The original conditional statement & its contrapositive will always have the same meaning: • Original: If it snows, then school is canceled. • Contrapositive: If school has not been canceled, then it has not snowed.

  18. Conditional Equivalence The converse & inverse of a conditional statement will always have the same meaning. Converse: If school is canceled, then it has snowed. Inverse: If it has not snowed, then school has not been canceled.

  19. Other Postulates • Postulate 5: Through any two points there exists exactly one line. • Postulate 6: A line contains at least 2 points. • Postulate 7: If 2 lines intersect, then their intersection is exactly 1 point.

  20. Other Postulates • Postulate 8: through any three noncollinear points there exists exactly 1 plane. • Postulate 9: A plane contains at least three noncollinear points. • Postulate 10: If any two points lie in a plane, then the line containing them lies in the plane.

  21. Other Postulates • Postulate 11: If 2 planes intersect, then their intersection is a line.

  22. Assignment: • P 75: 10 – 48 even

More Related