Unit I Chapter 4 Radicals 1 - WordPress.com I Chapter 4 – Radicals 3 Method 2: Simplifying Square...
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Unit I Chapter 4 – Radicals 1
Section 4.1: Mixed And Entire Radicals
(I) Square Roots
Determine the area of the square.
Determine the dimensions of the square given the area.
Principal and Secondary Square Roots
What number(s) when squared give 49?
In other words, what x-values are solutions to x2 = 49 ?
7 cm
7 cm
49 cm2
x
x
Objectives:
Principal and secondary square roots
Evaluating Square Roots
Evaluating Cube Roots
Simplifying Roots by Calculator
Terminology of a Radical
Mixed and Entire Radicals
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Unit I Chapter 4 – Radicals 2
The number 49 has two square roots, one positive and one negative.
•The positive square root such as √49 is called the __________________
•The negative square root such as −√49 is called the _________________
A negative number does not have a square root in the real number system.
(II) Evaluating Square Roots
There are a couple of methods to evaluate square roots:
Method 1: Simplifying Square Roots by Perfect Square Numbers
Perfect Square Numbers or Factors to remember:
22 = 4
32 = 9
42 = 16
52 = 25
62 = 36
72 = 49
82 = 64
92 = 81
102 = 100
112 = 121
122 = 144
132 = 169
142 = 196
152 = 225
Example: Simplify
(a) √36 (b) √12 (c) √48
Perfect Square Numbers or Factors
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Unit I Chapter 4 – Radicals 3
Method 2: Simplifying Square Roots by Prime Factorization
Remember: Prime numbers
•A whole number (except 0 and 1) that is divisible
by 1 and itself.
Example: 2, 3, 5, 7, 11, 13, 17, 19, ……
Simplify each square root by generating the prime factorization
of the radicand.
(a) √36 (b) √12 (c) √48
The square root of a non–perfect square is an irrational number.
(III) Cube Roots
Determine the volume of the square prism.
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Unit I Chapter 4 – Radicals 4
The volume of a Borg Cube attacking earth is 64 000 000 m3.
Determine the edge length of the cube.
All numbers (positive and negative) have only one cube root, denoted by 3
The cube root of a perfect cube is a rational number.
Example. Simplify √10003
The cube root of a non–perfect cube is an irrational number.
Example. √73
(IV) Evaluating Cube Roots
There are a couple of methods to evaluate square roots:
Method 1: Simplifying Cube Roots by Perfect Cube Numbers
Perfect Cube Numbers or Factors to remember:
23 = 8
33 = 27
43 = 64
53 = 125
63 = 216
73 = 343
83 = 512
Perfect Square Numbers or Factors
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Unit I Chapter 4 – Radicals 5
Example: Simplify
(a) √2163
(b) √1203
Method 2: Simplifying Cube Roots by Prime Factorization
Example: Simplify each cube root by generating the prime factorization
of the radicand.
(a) √643
(b) √1203
(c) √1083
(V) Simplifying Roots by Calculator
Example 1
Use a calculator to determine the exact value of the following.
(a) 64 (b) 25 (c) 3 729 (d) 3 27
Example 2
Without using a calculator, determine the exact value of the following.
(a) 100 (b) 24 (c) 3 125 (d) 3 72
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Unit I Chapter 4 – Radicals 6
(VI) Terminology of a Radical
200 is an example of an entire radical where the index is 2 and the radicand is 200
3 162 is an example of an entire radical where the index is 3 and the radicand is 162
32 and 3 54 are examples of mixed radicals
(VII) Mixed and Entire Radicals
Example 3
Express each of the following radicals as a mixed radical.
(a) 32 (b) 75 (c) 3 54 (d) 3 40
Example 4 Express each of the following mixed radicals as an entire radical.
(a) 33 (b) 52 (c) 3 24 (d) 3 43
Questions: P.182 – 183 #1a, b, d, e, #2, #4, #5, #6a, b, #10
#11,#12, #16a, #17
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Unit I Chapter 4 – Radicals 7
Section 4.2: Adding And Subtracting Radicals
(I) Review – Addition and Subtraction of Polynomials
Example: Determine the perimeter (in simplest form) of the
rectangle below.
When adding (or subtracting) polynomials only
like terms can combine.
Example: Simplify
2x2y – 4xy2 + 5x2y – 10xy2
5x2 + 8x
3x2 + 4x
same variable(s)
same exponent
Objectives:
Review Addition/Subtraction of Polynomials
Addition/Subtraction of Radicals
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Unit I Chapter 4 – Radicals 8
(II) Addition and Subtraction of Radicals
Example: Determine the perimeter (in simplest form) of the
rectangle below.
When adding (or subtracting) RADICALS only
like radicals
can combine.
Radicals may have to be simplified by considering perfect square or perfect
cube factors before they can be combined with other like radicals.
Example: Simplify 2√8 − 5√12 + 3√18 + √27
same index number
same radicand
5√3 + 8√2
3√3 + 4√2
Remember
only like radicals can combine
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Unit I Chapter 4 – Radicals 9
Example 1
Determine whether the set of radicals below are like or unlike terms.
(a) 18,25,22 (b) 32,32,33 (c) 50,45,5
Example 2
Add or subtract the following radicals and express the answer in simplest radical form.
(a) 2722 (b) 273934 (c) 542055
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Unit I Chapter 4 – Radicals 10
Example 3
Simplify the following and express the answer in simplest radical form.
(a) 8045255 (b) 98122
1502274
Example 4
Determine the perimeter of the following diagram.
28
63 63
112
Questions: P.188 – 190 #1, #2, #3, #4, #5, #6, #7, #9, #11,
#12, #14, #15, #16, #18
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Unit I Chapter 4 – Radicals 11
Section 4.3: Multiplying And Dividing Radicals
(I) Multiplying Monomials
Example: Determine the area for the rectangle below
5xy3
3x2y
Note: When monomials multiply
coefficients (numbers) multiply
add exponents when same variable multiples
Objectives:
Review Multiplying Monomials
Multiplying Radicals
Review of Rational and Irrational Numbers
Dividing Radicals (Rationalizing the Denominator)
Simplifying Radicals by Division
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Unit I Chapter 4 – Radicals 12
(II) Multiplying Radicals
Example: Determine the area for the rectangle below
The product of two mixed radicals
is equal to the product of the rational numbers times the product of the radicands.
ac x bd = abcd eg. 24 x 35 = 620
Example 1
Express each product in simplest radical form.
(a) 6 x 3 (b) 22 x 63 (c) 15 x 104
Note: When radicals multiply
rational numbers in front multiply
radicands (numbers underneath) multiply
simply resulting root if possible
5√6
3√2
Rational
numbers
Radicands
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Unit I Chapter 4 – Radicals 13
Example 2
Expand each expression and simplify.
(a) 823 (b) 332345 (c) 25332
(III) Rational and Irrational Numbers
A rational number
terminates or has a repeating decimal
Example: 2
An irrational number
•are non-terminating or non- repeating decimals
Example: √2 ≈ 1.414213562 …
Multiplying radicals with the same radicand will produce a ______________
Example: Multiply and simplify.
√2 𝑥 √2 =
Irrational numbers
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Unit I Chapter 4 – Radicals 14
(IV) Dividing Radicals (Rationalize the Denominator)
Determine the area for the rectangle below
Determine the length of the rectangle below
√8
√2
L
√2 Area = 4
Rationalizing the Denominator
•changing the denominator to a rational number
•𝐼𝑓 𝑎√𝑏
𝑐√𝑑 𝑡ℎ𝑒𝑛
𝑎√𝑏
𝑐√𝑑 𝑥
√𝑑
√𝑑
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Unit I Chapter 4 – Radicals 15
(V) Simplifying Radicals by Division
b
a
b
a Example: Simplify
2
6
b
a
d
c
bd
ac Example: Simplify
75
1415
Example 1
Express each of the following in simplest radical form.
(a) 10
120
(b) 63
486
(c) 3
3
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Unit I Chapter 4 – Radicals 16
Example 2
Rationalize the denominator and simplify.
(a) 63
85
(b) 32
12423
(c) 24
45125
Example 3
Determine the width, w, of the given rectangle.
Area = 340
l = 64
w
Questions: Pages 198–200, # 1, 2a, 4, 5, 6a, 8, 9a, 10, 13, 14, 16, 17, 19
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Unit I Chapter 4 – Radicals 17
INCLASS ASSIGNMENT REVIEW – RADICALS
(I) Simplifying Radicals
Express as a radical in simplest form.
(a) √63 (b) 3√24 (c) √483
(d) 2√543
(II) Entire and Mixed Radicals
Express as a mixed radical.
(a) √28 (b) √243
(c) √50 (d) √1283
Express as an entire radical.
(e) 3√5 (f) 5√3 (g) 2√43
(h) 5√23
(III) Addition and Subtraction of Radicals
Simplify the following and express the answer in simplest radical form.
(a) 2√3 + 3√6 + 5√3 − 8√6 (b) √32 + √75 − 2√48 − 2√50
(c) 3√18 − √45 + 1
2√8 + 3√20
(IV) Multiplication of Radicals
Simplify the following and express the answer in simplest radical form.
(a) 2√6 x 3√15 (b) 5√2 ( √27 + 3√12 − √24 )
(c) (3√2 − 4√6)(5√2 + √6) (d) (2√5 − √10)2
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Unit I Chapter 4 – Radicals 18
(V) Division of Radicals
Simplify the following and express the answer in simplest radical form.
(a) 12
√3 (b)
4√2
3√10 (c)
2√24 − 7√6
3√3 (d) (
2√8+ 4√18
4√5)
(VI) Perimeter and Area of Figures
(a) Determine the perimeter of the following trapezoid.
(b) Determine the area of the following rectangle.
(c) Determine the width, w, of the given rectangle.
12
27 27
75
52
83
Area = 2418 w
l = 39
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Unit I Chapter 4 – Radicals 19
SOLUTIONS
(I) (a) 3√7 (b) 6√6 (c) 2√63
(d) 6√23
(II) (a) 2√7 (b) 2√33
(c) 5√2 (d) 4√23
(e) √45 (f) √75 (g) √323
(h) √2503
(III) (a) 7√3 − 5√6 (b) −6√2 − 3√3 (c) 10√2 + 3√5
(IV) (a) 18√10 (b) 45√6 − 20√3 (c) 6 − 34√3 (d) 30 − 20√2
(V) (a) 4√3 (b) 4√5
15 (c) −√2 (d)
4√10
5
(VI) (a) 13√3 (b) 12√10 (c) w = 4√2
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Unit I Chapter 4 – Radicals 20
Section 4.4: Simplifying Algebraic Expressions Involving Radicals
(I) Radicals that contain variables.
Example: Simplify.
(a) √𝑥2 (b) √𝑥3
(c) √𝑥4 (d) √𝑥5
(e) √𝑥6 (f) √4𝑥4
(g) √12𝑥2 (h) √18𝑥3
Objectives:
Radicals the Contain Variables
Adding/Subtracting Radicals that Contain Variables
Multiplying Radicals that Contain Variables
Dividing Radicals that Contain Variables
Simplifying Radicals by Division
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Unit I Chapter 4 – Radicals 21
Example: Express as an entire radical.
(a) 3𝑥√2 (b) 2𝑥 √3𝑥3
(II) Adding/Subtracting radicals that contain variables
Only like radicals can combine when adding or subtracting.
Example. Simplify
(a) 22 52 xx (b) 33 823 xx
(c) 4185 x (d) 52 277 mm
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Unit I Chapter 4 – Radicals 22
(III) Multiplying radicals that contain variables
Multiply the following algebraic expressions involving radicals.
(a) xxx 2263 2 (b) xxx 324 (c) 22 5432 xx
(IV) Dividing radicals that contain variables
Example: Simplify
(a) x
x
3
12 3
(b) x
xx
2
53 3
(c) x
xx
3
6223 3
Questions: Pages 212–213, # 3, 4, 6a, d, 5, 6a, 8b, c, d, 9a, d, 10b, c, 12a, d, 15
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Unit I Chapter 4 – Radicals 23
Section 4.6: Solving Radical Equations
(I) Solving radical equations
Example 1 Solve for x.
(a) 5x (b) 43 x (c) 63 x
(d) 223 x (e) 1223 x
Objectives:
Solving Radical Equations
Applications of Radical Equations
To solve radical equations:
(i) May need to isolate the radical first
(ii) Square both sides (√ )2
= ( )2 to eliminate a square root
OR cube both sides (√3
)3
= ( )3 to eliminate a cube root
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Unit I Chapter 4 – Radicals 24
Example 2
Solve the following radical equations.
(a) 45 x (b) 383 x
(c) 10732 x (d) 1220102 x
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Unit I Chapter 4 – Radicals 25
Example 3
The forward and backward motion of a swing can be modeled using the formula
8.92
LT
where T represents the time, in seconds, for a swing to return to its original position and L
represents the length of the chain, in meters, supporting the swing.
If it takes 2 seconds for the swing to return to its original position then what is the length of the
chain supporting the swing?
Questions: Pages 222–224, # 1, 2, 4, 5, 8, 11, 12, 13, 17
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Unit I Chapter 4 – Radicals 26
RADICALS TEST REVIEW
1. Simplify the following.
(a) 3 6481 (b) 25273 (c) 75 (d) 3 24 (e) 398x (f)
3 54
2. Express as an entire radical.
(a) 73 (b) 3 32 (c) 24x (d) 3 45x
3. Perform the operations indicated and express the answer in simplest radical form.
(a) 737974 (b) 274812 (c) 85454322
1202
4. Determine the perimeter of the following diagrams.
(a) (b)
5. Perform the operations indicated and express the answer in simplest radical form.
(a) 3483 x (b) 56142 (c) 24632 (d) 235
(e) 22233 (f) 5825 (g) 272232334
6. Determine the area of the following diagrams.
(a) (b)
20
45 45
125
28
63
22
65
34
34
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Unit I Chapter 4 – Radicals 27
7. Rationalize the denominator.
(a) 5
60
(b) 33
5415
(c) 2
8
(d) 58
82
(e) 33
24268 (f)
24
452202
8. Determine the width of the given rectangles.
(a) (b)
9. Simplify the following algebraic expressions involving radicals.
(a) 694 x (b) 2272 x (c) 4503 xx (d) xxx 3265 2
(e) xxx 243 5 (f) 22 2536 xx
(g)
x
x
3
12 5
(h)
x
xx
52
153 3
(i)
x
xxx
3
272124 3
10. Solve the following radical equations.
(a) 4x
(b) 33 x
(c) 93 x
(d) 822 3 x
(e) 1823 x
(f) 53 x
(g)
243 x (h) 14952 x
(i) 64233 x
(j)
10482 x
(k)
1711153 x
Area = 5416
l = 34
w Area = 9627
l = 29
w
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Unit I Chapter 4 – Radicals 28
SOLUTIONS
1. (a) 5
(b) – 2
(c) 35
(d)
3 32
(e) xx 27
(f)
3 23
2. (a) 63
(b)
3 24
(c)
232x
(d) 3 3500x
3. (a) 72 (b) 33
(c) 21258
4. (a) 710 (b) 513
5. (a)
624 (b)
76
(c) 218 (d)
1528 (e)
61235
(f)
1039
(g)
6654
6. (a) 320 (b) 48
7. (a)
32
(b) 215
(c) 24
(d) 10
10 (e)
3
24 (f)
4
10
8. (a) 212 (b) 312
9. (a) 312x (b) 36x (c) 215 3x (d) xx 230 2
(e) xx 612 3
(f) 152412 2 xx
(g) 22x
(h) 2
33 2x
(i)
26x
10. (a) 16x
(b) 3 27x
(c) 27x
(d) 32x
(e) 18x (f) 28x
(g)
12x
(h) 8x
(i) 6x
(j)
22x
(k)
7x