page 34 – 35 #16 – 46 even (#42 bonus) (15 problems – 20 points) math pacing logical reasoning...
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Page 34 – 35 #16 – 46 even (#42 bonus) (15 problems – 20 points)
Logical Reasoning
Evaluate each expression
45.15.1 1.8
5110
8
34 2.
Simplify each expression22 83 cdc 3. yy 3529 4.
5. Write an algebraic expression for the verbal expression, then simplify: three times the difference of w and z increased by 2 times z
9 16
dc 84 2
4521 y
zwzzw 323
Logical Reasoning
PEMDAS
Logical Reasoning
PEMDAS
The statement If the popcorn burns, then the heat was too high or the kernels heated unevenly is called a conditional statement.
Conditional statements can be written in the form: If A, then B.
Statements in this form are called if-then statements.
The part of the statement immediately following the word if
is called the hypothesis.
The part of the statement immediately
following the word then is called the
conclusion.
Logical Reasoning
PEMDAS
If A, then B.
If the popcorn burns, then the heat was too highor the kernels heated
unevenly
Identify the hypothesis and conclusion of the statement.
If it is raining, then Beau and Chloe will not play softball.
Recall that the hypothesis is part of the conditional following the word if and the conclusion is the part of the conditional following the word then.
Answer: Hypothesis: it is rainingConclusion: Beau and Chloe will not play softball
Identify Hypothesis and Conclusion
Identify the hypothesis and conclusion of the statement.
Answer: Hypothesis: Conclusion:
Identify Hypothesis and Conclusion
Identify the hypothesis and conclusion of each statement.
a. If it is above 75°, then you can go swimming.
b.
Answer: Hypothesis: it is above 75° Conclusion: you can go swimming
Answer: Hypothesis: Conclusion:
Identify Hypothesis and Conclusion
Logical Reasoning
PEMDAS
Sometimes a conditional statement is written without using the words if and then.
But a conditional statement can always be rewritten as an if-then statement.
Identify the hypothesis and conclusion of the statement. Then write the statement in if-then form.
I eat light meals.
Answer: Hypothesis: I eat a meal Conclusion: it is lightIf I eat a meal, then it is light.
Write a Conditional If-Then Form
Identify the hypothesis and conclusion of the statement. Then write the statement in if-then form.
For a number a such that
Answer: Hypothesis: Conclusion:
Write a Conditional If-Then Form
Answer: Hypothesis: it is FridayConclusion: we go bowlingIf it is Friday, then we go bowling.
Answer: Hypothesis: Conclusion:
Identify the hypothesis and conclusion of each statement. Then write each statement in if-then form.
a. We go bowling on Fridays.
b. For a number x such that .
Write a Conditional If-Then Form
Logical Reasoning
PEMDAS
Deductive reasoning is the process of using facts, rules, definitions, or properties to reach a valid conclusion.
Suppose you have a true conditional and you know that the hypothesis is true for a given case.
Deductive reasoning allows you to say the conclusion is true for that case.
Determine a valid conclusion that follows from the statement, “If one number is odd and another number is even, then their sum is odd” for the given conditions. If a valid conclusion does not follow, write no valid conclusion and explain why.
The two numbers are 5 and 12.
5 is odd and 12 is even, so the hypothesis is true.
Answer: Conclusion: The sum of 5 and 12 is odd.
Deductive Reasoning
Answer: no valid conclusion
Determine a valid conclusion that follows from the statement, “If one number is odd and another number is even, then their sum is odd” for the given conditions. If a valid conclusion does not follow, write no valid conclusion and explain why.
The two numbers are 8 and 26.
Both numbers are even, so the hypothesis is false.
Deductive Reasoning
Determine a valid conclusion that follows from the statement “If the last digit in a number is 0, then the number is divisible by 10” for the given conditions. If a valid conclusion does not follow, write no valid conclusion and explain why.
a. The number is 16,580.
b. The number is 4005.
Answer: No valid conclusion; the last digit in 4005 is not 0.
Answer: The number is divisible by 10.
Deductive Reasoning
Logical Reasoning
PEMDAS
Not all if-then statements are always true or always false.
Consider the statement “If Luke is listening to CDs, then he is using his portable CD player.”
Luke may be using his portable CD player.
However, he could also be using a computer, a car CD player or a home CD player.
Logical Reasoning
PEMDAS
To show that a conditional is false, we can use a counterexample.
A counterexample is a specific case in which a statement is false.
It takes only one counterexample to show that a statement is false.
Find a counterexample for the conditional statement.
If Joe does not eat lunch, then he must not feel well.
Answer: Perhaps Joe was not hungry.
Find Counterexamples
Find a counterexample for the conditional statement.
If the traffic light is red, then the cars must be stopped.
Answer: A driver could run the red light.
Find Counterexamples
Find a counterexample for eachconditional statement.
a. If you are 16, then you have a driver’s license.
b. If the Commutative Property holds for addition, then it holds for subtraction.
Answer: You could wait until you are 17 before getting a driver’s license.
Answer:
Find Counterexamples
Multiple-Choice Test Item Which numbers are counterexamples for the statement below?
A
B
C
D
Read the Test ItemFind the values of x and y that make the statement false.
Solve the Test ItemReplace x and y in the equation
with the given values.
A The hypothesis is true because the expressions are not equal. The statement is true.
Find a Counterexample
The hypothesis is true because the expressions are not equal.The statement is true.
The hypothesis is true because the expressions are not equal.The statement is true.
Answer: B
B The hypothesis is false because .Thus, the statement is false.
C
D
The only values that prove the statement false areand . So these numbers are counterexamples.
Find a Counterexample
Which numbers are counterexamples for the statement below?
A
B
C
D
Answer: C
Find a Counterexample
None
Logical Reasoning
1. Which is the expression for the total area of the figure shown?22xA. B. xx 22
xx 22 C. D. 23xx2x x
x x
2. If the flowers are blooming, then you may cut them.
3. If 3n – 1 < 23, then n < 8
Identify the hypothesis and the conclusion and write the statement in if-then form.
4. Complementary angles have a sum of 90°.
Identify the hypothesis and the conclusion of each statement.
Hypothesis Conclusion
Hypothesis Conclusion
If the angles are complementary, then their sum is 90°.
Hypothesis Conclusion