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2.2 Definitions and Biconditional Statements
Geometry Mr. Peebles 03/20/13
Geometry Bell Ringer Write the Conditional, Inverse,
Converse, and Contrapositive of the following statement:
March is a month for basketball.
Geometry Bell Ringer Write the Conditional, Inverse,
Converse, and Contrapositive of the following statement:
March is a month for basketball.
1. Conditional: (p q)
If it’s March, then it’s a month for basketball.
2. Inverse: (~p ~q)
If it’s NOT March, then it’s NOT a month for basketball.
3. Converse: (q p)
If it’s a month for basketball, then it’s March.
4. Contrapositive: (~q ~p)
If it’s NOT a month for basketball, then it’s NOT March.
Geometry Bell Ringer Write the Contrapositive of the
following conditional statement:
If the polygon has three sides, then it’s a triangle.
Geometry Bell Ringer Write the Contrapositive of the
following conditional statement:
If the polygon has three sides, then it’s a triangle.
Answer: If it’s NOT a triangle, then the polygon does not have three sides.
Standard/Objectives Daily Learning Target (DLT) Thursday March 21, 2013 “I can recognize, use, and write
biconditional statements in real life.”
Assignment Due Today: • Pp. 83-86
(1-17 Odds, 31, 37, 39, 54-58, 64-66)
Biconditional Statements • A bi-conditional statement can either be true or
false… it has to be one or the other. To be
true, BOTH the conditional statement and
its converse must be true. This means that a
true biconditional statement is true both
“forward” and “backward.” All definitions can
be written as true bi-conditional statements.
Biconditional statements always contains the
phrase “if and only if.”
Example 1 The biconditional statement below can be rewritten as a
conditional statement and its converse.
Conditional statement: If three lines are coplanar, then
they lie in the same plane.
Converse: If three lines lie in the same plane, then they
are coplanar.
Hint: Are the conditional and converse statements true?
If so, write the biconditional.
Example 1 The biconditional statement below can be rewritten as a
conditional statement and its converse.
Conditional statement: If three lines are coplanar, then
they lie in the same plane.
Converse: If three lines lie in the same plane, then they
are coplanar.
Answer: Three lines are coplanar if and only if they
lie in the same plane.
Example 2: Analyzing Biconditional Statements • Consider the following statement: x = 3 if and only if
x2 = 9.
• Is this a biconditional statement?
Example 2: Analyzing Biconditional Statements • Consider the following statement: x = 3 if and only if
x2 = 9.
• Is this a biconditional statement?
– The statement is biconditional because it contains the phrase “if and only if.”
• Is the statement true?
– Conditional statement: If x = 3, then x2 = 9.
– Converse: x2 = 9, then x = 3.
• The first part of the statement is true, but what about -3? That makes the second part of the statement false.
Example 3: Writing a Biconditional Statement
• Each of the following is true. Write the converse if each statement and decide whether the converse is true or false. If the converse is TRUE, then combine it with the original statement to form a true biconditional statement. If the statement is FALSE, then state a counterexample.
– If two points lie in a plane, then the line containing them lies in the plane.
Example 3: Writing a Biconditional Statement
• Converse: If a line containing two points lies in a plane, then the points lie in the plane. The converse is true. It can be combined with the original statement to form a true biconditional statement written below:
• Biconditional statement: Two points lie in a plane if and only if the line containing them lies in the plane.
Example 4: Writing a Biconditional Statement
• Conditional: If a number ends in 0, then the number is divisible by 5.
• Converse: If a number is divisible by 5; then the number ends in 0.
Can you write a biconditional statement from the information given from the conditional and converse statements?
Example 4: Writing a Biconditional Statement
• Conditional: If a number ends in 0, then the number is divisible by 5.
• Converse: If a number is divisible by 5; then the number ends in 0.
• The converse isn’t true. What about 25?
• Knowing how to use true biconditional statements is an important tool for reasoning in Geometry. For instance, if you can write a true biconditional statement, then you can use the conditional statement or the converse to justify an argument.
Example 5: Writing a Postulate as a Biconditional Statement
• The second part of the Segment Addition Postulate is
the converse of the first part. Combine the statements
to form a true biconditional statement.
• If B lies between points A and C, then AB + BC = AC.
• Converse: If AB + BC = AC; then B lies between
points A and C.
• Now combine these statements into one bi-conditional
statement.
Example 5: Writing a Postulate as a Biconditional Statement
• Answer: Point B lies between points A
and C if and only if AB + BC = AC.
Assignment: • pp. 90-92 (1-6 and 38-40)
Assignment: 5th Period • Work on Unit 10 Chapter 7 Practice
Test – You’ll take it tomorrow.
Questions: (1-9, 13-16, 18-21, 23, 24)
Assignment: Practice Test 1. x = 16 9. ABC ~ FDE
2. x = 4.2 AA Postulate
3. x = 2 12. *Skip
4. x = 42, y = 138, z = 9 13. 13.5 CM
5. x = 4 14.
6. x = 63 15. 6
7. PRQ ~ TWV 16.
SSS Similarity Theorem
8. Sides Not Proportional
65
26
Assignment: Practice Test 18. x = 16-2/3
19. x = 10
20. x = 5-5/11
21. x = 10
23. x = 15
AA Postulate
24. x = 8.75
AA Postulate
Assignment: Complete In This Order • Pp. 83-86
(1-17 Odds, 31, 37, 39, 54-58, 64-66)
• pp. 90-92 (1-6 and 38-40)
• Finish Class Project From Monday
• Review For Your Quiz Today
• Review For Your Test Tomorrow
Geometry Exit Quiz – 5 Points
Write the Contrapositive of the following conditional statement:
If all sides are proportional, then the shapes are similar.