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Transcript of Venn diagram
![Page 1: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/1.jpg)
1
Venn diagram
A
B
C
U
• The universal set U is usually represented by a rectangle.
• Inside this rectangle, subsets of the universal set are represented by
geometrical figures.
![Page 2: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/2.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
![Page 3: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/3.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
• To represent (A ∩C) ∪ (B ∩C):
![Page 4: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/4.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
![Page 5: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/5.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
![Page 6: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/6.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
![Page 7: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/7.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
A
B
C
![Page 8: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/8.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
A
B
C
A
B
C
![Page 9: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/9.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
A
B
C
A
B
C
![Page 10: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/10.jpg)
2
Venn diagrams help us identify some useful formulas in set operations.
• To represent (A ∪ B) ∩C:
A
B
C
A
B
C
• To represent (A ∩C) ∪ (B ∩C):
A
B
C
A
B
C
To prove (A ∪ B) ∩C = (A ∩C) ∪ (B ∩C) in a rigorous manner, should use
formal mathematical logic.
![Page 11: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/11.jpg)
3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
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3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
Example {1, 3, 5, 7, 9}
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3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
Example {1, 3, 5, 7, 9}
• Because intervals have infinitely many elements, we can’t use listing method
to express intervals. We introduce new notations:
![Page 14: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/14.jpg)
3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
Example {1, 3, 5, 7, 9}
• Because intervals have infinitely many elements, we can’t use listing method
to express intervals. We introduce new notations:
� square bracket means endpoint included
� round bracket means endpoint excluded
![Page 15: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/15.jpg)
3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
Example {1, 3, 5, 7, 9}
• Because intervals have infinitely many elements, we can’t use listing method
to express intervals. We introduce new notations:
� square bracket means endpoint included
� round bracket means endpoint excluded
Example [7, 11], (−2, 5]
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3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
Example {1, 3, 5, 7, 9}
• Because intervals have infinitely many elements, we can’t use listing method
to express intervals. We introduce new notations:
� square bracket means endpoint included
� round bracket means endpoint excluded
Example [7, 11], (−2, 5]
Note The interval [7, 11] contains ALL numbers between 7 and 11 (including
integers, rational numbers, irrational numbers)
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3
A few remarks about set notations
• If a set has finitely many elements, use the listing method to express the set
� write down all the elements
� enclosed the elements by braces
Example {1, 3, 5, 7, 9}
• Because intervals have infinitely many elements, we can’t use listing method
to express intervals. We introduce new notations:
� square bracket means endpoint included
� round bracket means endpoint excluded
Example [7, 11], (−2, 5]
Note The interval [7, 11] contains ALL numbers between 7 and 11 (including
integers, rational numbers, irrational numbers)
For example, 10 ∈ [7, 11]
9.123 ∈ [7, 11]√
50 ∈ [7, 11]
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4
Inequalities
To solve an inequality (or inequalities) in an unknown x means to find all real
numbers x such that the inequality is satisfied.
The set of all such x is called the solution set to the inequality.
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4
Inequalities
To solve an inequality (or inequalities) in an unknown x means to find all real
numbers x such that the inequality is satisfied.
The set of all such x is called the solution set to the inequality.
Polynomial inequalities
anxn + an−1xn−1 + · · · + a1x + a0 < 0 ( or > 0, or ≤ 0, or ≥ 0)
where n ≥ 1 and an , 0.
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4
Inequalities
To solve an inequality (or inequalities) in an unknown x means to find all real
numbers x such that the inequality is satisfied.
The set of all such x is called the solution set to the inequality.
Polynomial inequalities
anxn + an−1xn−1 + · · · + a1x + a0 < 0 ( or > 0, or ≤ 0, or ≥ 0)
where n ≥ 1 and an , 0.
(1) n = 1 Linear inequalities
(2) n = 2 Quadratic inequalities
(3) n ≥ 3 Higher degree inequalities
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
−3 ≤ x
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
−3 ≤ x
Solution set = {x ∈ R : x ≤ 1 and − 3 ≤ x}
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
−3 ≤ x
Solution set = {x ∈ R : x ≤ 1 and − 3 ≤ x}= {x ∈ R : −3 ≤ x ≤ 1}
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
−3 ≤ x
Solution set = {x ∈ R : x ≤ 1 and − 3 ≤ x}= {x ∈ R : −3 ≤ x ≤ 1}= [−3, 1]
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
−3 ≤ x
Solution set = {x ∈ R : x ≤ 1 and − 3 ≤ x}= {x ∈ R : −3 ≤ x ≤ 1}= [−3, 1]
Be careful 1 ≤ 3 − 2x
1 − 3 ≤ −2x
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5
Example Find the solution set to the following compound inequality:
1 ≤ 3 − 2x ≤ 9
Solution The inequality means 1 ≤ 3 − 2x and 3 − 2x ≤ 9.
Solving separately: 1 ≤ 3 − 2x
2x ≤ 3 − 1
x ≤ 1
3 − 2x ≤ 9
3 − 9 ≤ 2x
−3 ≤ x
Solution set = {x ∈ R : x ≤ 1 and − 3 ≤ x}= {x ∈ R : −3 ≤ x ≤ 1}= [−3, 1]
Be careful 1 ≤ 3 − 2x
1 − 3 ≤ −2x−2−2
≥ x
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6
Example Find the solution set to the following:
2x + 1 < 3 and 3x + 10 < 4
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6
Example Find the solution set to the following:
2x + 1 < 3 and 3x + 10 < 4
Solution Solve separately: 2x + 1 < 3
2x < 2
x < 1
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6
Example Find the solution set to the following:
2x + 1 < 3 and 3x + 10 < 4
Solution Solve separately: 2x + 1 < 3
2x < 2
x < 1
3x + 10 < 4
3x < −6
x < −2
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6
Example Find the solution set to the following:
2x + 1 < 3 and 3x + 10 < 4
Solution Solve separately: 2x + 1 < 3
2x < 2
x < 1
3x + 10 < 4
3x < −6
x < −2
Solution set = {x ∈ R : x < 1 and x < −2}
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6
Example Find the solution set to the following:
2x + 1 < 3 and 3x + 10 < 4
Solution Solve separately: 2x + 1 < 3
2x < 2
x < 1
3x + 10 < 4
3x < −6
x < −2
Solution set = {x ∈ R : x < 1 and x < −2}= {x ∈ R : x < −2}
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6
Example Find the solution set to the following:
2x + 1 < 3 and 3x + 10 < 4
Solution Solve separately: 2x + 1 < 3
2x < 2
x < 1
3x + 10 < 4
3x < −6
x < −2
Solution set = {x ∈ R : x < 1 and x < −2}= {x ∈ R : x < −2}= (−∞,−2)
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7
Example Find the solution set to the following:
2x + 1 > 9 and 3x + 4 < 10
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7
Example Find the solution set to the following:
2x + 1 > 9 and 3x + 4 < 10
Solution Solve separately: 2x + 1 > 9
2x > 8
x > 4
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7
Example Find the solution set to the following:
2x + 1 > 9 and 3x + 4 < 10
Solution Solve separately: 2x + 1 > 9
2x > 8
x > 4
3x + 4 < 10
3x < 6
x < 2
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7
Example Find the solution set to the following:
2x + 1 > 9 and 3x + 4 < 10
Solution Solve separately: 2x + 1 > 9
2x > 8
x > 4
3x + 4 < 10
3x < 6
x < 2
Solution set = {x ∈ R : x > 4 and x < 2}
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7
Example Find the solution set to the following:
2x + 1 > 9 and 3x + 4 < 10
Solution Solve separately: 2x + 1 > 9
2x > 8
x > 4
3x + 4 < 10
3x < 6
x < 2
Solution set = {x ∈ R : x > 4 and x < 2}= ∅
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8
Wording
(1) Find the solution(s) to the inequality 2x − 1 > 0.
(2) Find the solution set to the inequality 2x − 1 > 0.
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8
Wording
(1) Find the solution(s) to the inequality 2x − 1 > 0.
(2) Find the solution set to the inequality 2x − 1 > 0.
Answer
(1) Solutions x > 12
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8
Wording
(1) Find the solution(s) to the inequality 2x − 1 > 0.
(2) Find the solution set to the inequality 2x − 1 > 0.
Answer
(1) Solutions x > 12
(2) Solution set{x ∈ R : x > 1
2
}=
(12,∞)
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8
Wording
(1) Find the solution(s) to the inequality 2x − 1 > 0.
(2) Find the solution set to the inequality 2x − 1 > 0.
Answer
(1) Solutions x > 12
(2) Solution set{x ∈ R : x > 1
2
}=
(12,∞)
• Solve the inequality 2x − 1 > 0.
Can give solution or solution set.
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9
Quadratic Inequalities ax2 + bx + c > 0
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9
Quadratic Inequalities ax2 + bx + c > 0
ax2 + bx + c ≥ 0
ax2 + bx + c < 0
ax2 + bx + c ≤ 0
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9
Quadratic Inequalities ax2 + bx + c > 0
ax2 + bx + c ≥ 0
ax2 + bx + c < 0
ax2 + bx + c ≤ 0
Properties of real numbers
(1) m > 0 and n > 0 =⇒ m · n > 0
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9
Quadratic Inequalities ax2 + bx + c > 0
ax2 + bx + c ≥ 0
ax2 + bx + c < 0
ax2 + bx + c ≤ 0
Properties of real numbers
(1) m > 0 and n > 0 =⇒ m · n > 0
(2) m < 0 and n < 0 =⇒ m · n > 0
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9
Quadratic Inequalities ax2 + bx + c > 0
ax2 + bx + c ≥ 0
ax2 + bx + c < 0
ax2 + bx + c ≤ 0
Properties of real numbers
(1) m > 0 and n > 0 =⇒ m · n > 0
(2) m < 0 and n < 0 =⇒ m · n > 0
(3) m > 0 and n < 0 =⇒ m · n < 0
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9
Quadratic Inequalities ax2 + bx + c > 0
ax2 + bx + c ≥ 0
ax2 + bx + c < 0
ax2 + bx + c ≤ 0
Properties of real numbers
(1) m > 0 and n > 0 =⇒ m · n > 0
(2) m < 0 and n < 0 =⇒ m · n > 0
(3) m > 0 and n < 0 =⇒ m · n < 0
From these we get
(4) m · n > 0 ⇐⇒ (m > 0 and n > 0) or (m < 0 and n < 0)
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9
Quadratic Inequalities ax2 + bx + c > 0
ax2 + bx + c ≥ 0
ax2 + bx + c < 0
ax2 + bx + c ≤ 0
Properties of real numbers
(1) m > 0 and n > 0 =⇒ m · n > 0
(2) m < 0 and n < 0 =⇒ m · n > 0
(3) m > 0 and n < 0 =⇒ m · n < 0
From these we get
(4) m · n > 0 ⇐⇒ (m > 0 and n > 0) or (m < 0 and n < 0)
(5) m · n < 0 ⇐⇒ (m > 0 and n < 0) or (m < 0 and n > 0)
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
x2 + 2x − 15 > 0
(x + 5)(x − 3) > 0
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
x2 + 2x − 15 > 0
(x + 5)(x − 3) > 0
Apply Rule (4)
(x + 5 > 0 and x − 3 > 0) or (x + 5 < 0 and x − 3 < 0)
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
x2 + 2x − 15 > 0
(x + 5)(x − 3) > 0
Apply Rule (4)
(x + 5 > 0 and x − 3 > 0) or (x + 5 < 0 and x − 3 < 0)
(x > −5 and x > 3) or (x < −5 and x < 3)
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
x2 + 2x − 15 > 0
(x + 5)(x − 3) > 0
Apply Rule (4)
(x + 5 > 0 and x − 3 > 0) or (x + 5 < 0 and x − 3 < 0)
(x > −5 and x > 3) or (x < −5 and x < 3)
x > 3 or x < −5
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
x2 + 2x − 15 > 0
(x + 5)(x − 3) > 0
Apply Rule (4)
(x + 5 > 0 and x − 3 > 0) or (x + 5 < 0 and x − 3 < 0)
(x > −5 and x > 3) or (x < −5 and x < 3)
x > 3 or x < −5
Solution set = {x ∈ R : x < −5 or x > 3}
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10
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Solution
Method 1 Factorize the quadratic polynomial
x2 + 2x − 15 > 0
(x + 5)(x − 3) > 0
Apply Rule (4)
(x + 5 > 0 and x − 3 > 0) or (x + 5 < 0 and x − 3 < 0)
(x > −5 and x > 3) or (x < −5 and x < 3)
x > 3 or x < −5
Solution set = {x ∈ R : x < −5 or x > 3}= (−∞,−5) ∪ (3,∞)
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11
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Method 2 Graphical method
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11
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Method 2 Graphical method
• Graph of y = x2 + 2x − 15
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11
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Method 2 Graphical method
• Graph of y = x2 + 2x − 15
-5 3
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11
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Method 2 Graphical method
• Graph of y = x2 + 2x − 15
-5 3
• To solve the inequality x2 + 2x − 15 > 0 means
to find all (real numbers) x such that y > 0
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11
Example Find the solution set to the inequality
x2 + 2x − 15 > 0
Method 2 Graphical method
• Graph of y = x2 + 2x − 15
-5 3
• To solve the inequality x2 + 2x − 15 > 0 means
to find all (real numbers) x such that y > 0
• Solution set: (−∞,−5) ∪ (3,∞)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5
x − 3
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 0
x − 3
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 0 + + +
x − 3
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 0
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 0 +
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3)
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) +
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 −
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
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12
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
(x + 5)(x − 3) + 0 − 0 +
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Solution set: (−∞,−5) ∪ (3,∞)
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13
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Steps
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13
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Steps
• Factorize left-side x2 + 2x − 15 = (x + 5)(x − 3)
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13
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Steps
• Factorize left-side x2 + 2x − 15 = (x + 5)(x − 3)
• Zeros of left-side −5 and 3
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13
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Steps
• Factorize left-side x2 + 2x − 15 = (x + 5)(x − 3)
• Zeros of left-side −5 and 3
• Divide real number line into three parts: (−∞,−5), (−5, 3), (3,∞)
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13
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Steps
• Factorize left-side x2 + 2x − 15 = (x + 5)(x − 3)
• Zeros of left-side −5 and 3
• Divide real number line into three parts: (−∞,−5), (−5, 3), (3,∞)
• On each of these intervals, determine the sign of (x + 5) and (x − 3),
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13
Example Find the solution set to the inequality
x2 + 2x − 15 > 0Method 3
x < −5 x = −5 −5 < x < 3 x = 3 x > 3
x + 5 − 0 + + +
x − 3 − − − 0 +
(x + 5)(x − 3) + 0 − 0 +
Steps
• Factorize left-side x2 + 2x − 15 = (x + 5)(x − 3)
• Zeros of left-side −5 and 3
• Divide real number line into three parts: (−∞,−5), (−5, 3), (3,∞)
• On each of these intervals, determine the sign of (x + 5) and (x − 3),
hence the sign of (x + 5)(x − 3)
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
≥ 0
< 0
≤ 0
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
≥ 0
< 0
≤ 0Method 1 2n−1 cases
For example, n = 3: a · b · c > 0
4 cases: + + + + − − − + − − − +
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
≥ 0
< 0
≤ 0Method 1 2n−1 cases
For example, n = 3: a · b · c > 0
4 cases: + + + + − − − + − − − +
n = 4: a · b · c · d > 0
8 cases: + + ++ + + −− − + +− − − ++
+ − +− − + −+ + − −+ − − −−
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
≥ 0
< 0
≤ 0Method 1 2n−1 cases
For example, n = 3: a · b · c > 0
4 cases: + + + + − − − + − − − +
n = 4: a · b · c · d > 0
8 cases: + + ++ + + −− − + +− − − ++
+ − +− − + −+ + − −+ − − −−Method 2 Need graphs polynomials of degrees ≥ 3
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
≥ 0
< 0
≤ 0Method 1 2n−1 cases
For example, n = 3: a · b · c > 0
4 cases: + + + + − − − + − − − +
n = 4: a · b · c · d > 0
8 cases: + + ++ + + −− − + +− − − ++
+ − +− − + −+ + − −+ − − −−Method 2 Need graphs polynomials of degrees ≥ 3
Method 3 By table
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14
Polynomial inequalities (degree ≥ 3)
anxn + an−1xn−1 + · · · a1x + a0 > 0
≥ 0
< 0
≤ 0Method 1 2n−1 cases
For example, n = 3: a · b · c > 0
4 cases: + + + + − − − + − − − +
n = 4: a · b · c · d > 0
8 cases: + + ++ + + −− − + +− − − ++
+ − +− − + −+ + − −+ − − −−Method 2 Need graphs polynomials of degrees ≥ 3
Method 3 By table
ALL three methods need to factorize L.S.
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
−3 −2 2
x − 2
x + 2
x + 3
p(x)
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2
x + 2
x + 3
p(x)
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 0
x + 2 0
x + 3 0
p(x) 0 0 0
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15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 0 +
x + 2 0
x + 3 0
p(x) 0 0 0
![Page 106: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/106.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 0
x + 3 0
p(x) 0 0 0
![Page 107: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/107.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 0 + + +
x + 3 0
p(x) 0 0 0
![Page 108: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/108.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 0
p(x) 0 0 0
![Page 109: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/109.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 0 + + + + +
p(x) 0 0 0
![Page 110: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/110.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) 0 0 0
![Page 111: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/111.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) − 0 0 0
![Page 112: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/112.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) − 0 + 0 0
![Page 113: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/113.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) − 0 + 0 − 0
![Page 114: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/114.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) − 0 + 0 − 0 +
![Page 115: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/115.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) − 0 + 0 − 0 +
• Solution: x < −3 or x = −3 or x = −2 or −2 < x < 2 or x = 2, that is,
![Page 116: Venn diagram](https://reader034.fdocument.pub/reader034/viewer/2022042511/55979e3a1a28abc8488b474c/html5/thumbnails/116.jpg)
15
Example Solve the following inequality x3 + 3x2 − 4x − 12 ≤ 0
Solution Denote p(x) = x3 + 3x2 − 4x − 12.
• Factorize p(x)
� p(2) = 23 + 3(22) − 4(2) − 12 = 0
By Factor Theorem, (x − 2) is a factor of p(x).
� Long division or compare coeffficients p(x) = (x − 2)(x2 + 5x + 6)
= (x − 2)(x + 2)(x + 3)•
x < −3 −3 −3 < x < −2 −2 −2 < x < 2 2 2 < x
x − 2 − − − − − 0 +
x + 2 − − − 0 + + +
x + 3 − 0 + + + + +
p(x) − 0 + 0 − 0 +
• Solution: x < −3 or x = −3 or x = −2 or −2 < x < 2 or x = 2, that is,
x ≤ −3 or − 2 ≤ x ≤ 2.