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This module is from Elementary Algebra by Denny Burzynski and Wade Ellis, Jr. The distinction between the principal square root of the number x and the secondary square root of the number x is made by explanation and by example. The simplification of the radical expressions that both involve and do not involve fractions is shown in many detailed examples; this is followed by an explanation of how and why radicals are eliminated from the denominator of a radical expression. Real-life applications of radical equations have been included, such as problems involving daily output, daily sales, electronic resonance frequency, and kinetic energy.Objectives of this module: understand the process used in adding and subtracting square roots, be able to add and subtract square roots.

Overview

  • The Logic Behind The Process
  • The Process

The logic behind the process

Now we will study methods of simplifying radical expressions such as

4 3 + 8 3 or 5 2 x 11 2 x + 4 ( 2 x + 1 )

The procedure for adding and subtracting square root expressions will become apparent if we think back to the procedure we used for simplifying polynomial expressions such as

4 x + 8 x or 5 a 11 a + 4 ( a + 1 )

The variables x and a are letters representing some unknown quantities (perhaps x represents 3 and a represents 2 x ). Combining like terms gives us

4 x + 8 x = 12 x or 4 3 + 8 3 = 12 3 and 5 a - 11 a + 4 ( a + 1 ) or 5 2 x - 11 2 x + 4 ( 2 x + 1 ) 5 a - 11 a + 4 a + 4 5 2 x - 11 2 x + 4 2 x + 4 - 2 a + 4 - 2 2 x + 4

The process

Let’s consider the expression 4 3 + 8 3 . There are two ways to look at the simplification process:

  1. We are asking, “How many square roots of 3 do we have?”

    4 3 means we have 4 “square roots of 3”

    8 3 means we have 8 “square roots of 3”

    Thus, altogether we have 12 “square roots of 3.”
  2. We can also use the idea of combining like terms. If we recall, the process of combining like terms is based on the distributive property

    4 x + 8 x = 12 x because 4 x + 8 x = ( 4 + 8 ) x = 12 x

    We could simplify 4 3 + 8 3 using the distributive property.

    4 3 + 8 3 = ( 4 + 8 ) 3 = 12 3

Both methods will give us the same result. The first method is probably a bit quicker, but keep in mind, however, that the process works because it is based on one of the basic rules of algebra, the distributive property of real numbers.

Sample set a

Simplify the following radical expressions.

6 10 + 11 10 = 5 10

4 32 + 5 2 . Simplify 32 . 4 16 · 2 + 5 2 = 4 16 2 + 5 2 = 4 · 4 2 + 5 2 = 16 2 + 5 2 = 21 2

- 3 x 75 + 2 x 48 - x 27 . Simple each of the three radicals . = - 3 x 25 · 3 + 2 x 16 · 3 - x 9 · 3 = - 15 x 3 + 8 x 3 - 3 x 3 = ( - 15 x + 8 x - 3 x ) 3 = - 10 x 3

5 a 24 a 3 - 7 54 a 5 + a 2 6 a + 6 a . Simplify each radical . = 5 a 4 · 6 · a 2 · a - 7 9 · 6 · a 4 · a + a 2 6 a + 6 a = 10 a 2 6 a - 21 a 2 6 a + a 2 6 a + 6 a = ( 10 a 2 - 21 a 2 + a 2 ) 6 a + 6 a = - 10 a 2 6 a + 6 a Factor out - 2 a . (This step is optional .) = - 2 a ( 5 a 6 a - 3 )

Practice set a

Find each sum or difference.

4 18 5 8

2 2

6 x 48 + 8 x 75

64 x 3

7 84 x 12 189 x + 2 21 x

48 21 x

9 6 8 6 + 3

6 + 3

a 3 + 4 a a

5 a a

4 x 54 x 3 + 36 x 2 + 3 24 x 5 3 x

18 x 2 6 x + 3 x

Sample set b

Finding the product of the square root of seven and the binomial the square root of eight minus three, using the rule for multiplying square root expressions. See the longdesc for a full description.

Finding the product of the binomial the square root of two plus the square root of three and the binomial the square root of five plus the square root of twelve, using the rule for multiplying square root expressions. See the longdesc for a full description.

Finding the product of the binomial four times the square root of two minus three times the square root of six and the binomial five times the square root of two plus the square root of six, using the rule for multiplying square root expressions. See the longdesc for a full description.

3 + 8 3 8 . We'll rationalize the denominator by multiplying this fraction by 1 in the form 3 + 8 3 + 8 . 3 + 8 3 8 · 3 + 8 3 + 8 = ( 3 + 8 ) ( 3 + 8 ) 3 2 ( 8 ) 2 = 9 + 3 8 + 3 8 + 8 8 9 8 = 9 + 6 8 + 8 1 = 17 + 6 8 = 17 + 6 4 · 2 = 17 + 12 2

2 + 7 4 - 3 . Rationalize the denominator by multiplying this fraction by 1 in the from 4 + 3 4 + 3 . 2 + 7 4 - 3 · 4 + 3 4 + 3 = ( 2 + 7 ) ( 4 + 3 ) 4 2 - ( 3 ) 2 = 8 + 2 3 + 4 7 + 21 16 - 3 = 8 + 2 3 + 4 7 + 21 13

Practice set b

Simplify each by performing the indicated operation.

5 ( 6 4 )

30 4 5

( 5 + 7 ) ( 2 + 8 )

3 10 + 3 14

( 3 2 2 3 ) ( 4 3 + 8 )

8 6 12

4 + 5 3 8

12 + 8 2 + 3 5 + 2 10

Exercises

For the following problems, simplify each expression by performing the indicated operation.

4 5 2 5

2 5

10 2 + 8 2

3 6 12 6

15 6

10 2 10

3 7 x + 2 7 x

5 7 x

6 3 a + 3 a

2 18 + 5 32

26 2

4 27 3 48

200 128

2 2

4 300 + 2 500

6 40 + 8 80

12 10 + 32 5

2 120 5 30

8 60 3 15

13 15

a 3 3 a a

4 x 3 + x x

3 x x

2 b a 3 b 5 + 6 a a b 7

5 x y 2 x y 3 3 y 2 2 x 3 y

2 x y 2 2 x y

5 20 + 3 45 3 40

24 2 54 4 12

4 6 8 3

6 18 + 5 32 + 4 50

8 20 9 125 + 10 180

5

2 27 + 4 3 6 12

14 + 2 56 3 136

5 14 6 34

3 2 + 2 63 + 5 7

4 a x 3 x + 2 3 a 2 x 3 + 7 3 a 2 x 3

13 a x 3 x

3 b y 5 y + 4 5 b 2 y 3 2 5 b 2 y 3

2 ( 3 + 1 )

6 + 2

3 ( 5 3 )

5 ( 3 2 )

15 10

7 ( 6 3 )

8 ( 3 + 2 )

2 ( 6 + 2 )

10 ( 10 5 )

( 1 + 3 ) ( 2 3 )

1 + 3

( 5 + 6 ) ( 4 6 )

( 3 2 ) ( 4 2 )

7 ( 2 2 )

( 5 + 7 ) ( 4 7 )

( 2 + 5 ) ( 2 + 3 5 )

17 + 4 10

( 2 6 3 ) ( 3 6 + 2 3 )

( 4 5 2 3 ) ( 3 5 + 3 )

54 2 15

( 3 8 2 2 ) ( 4 2 5 8 )

( 12 + 5 3 ) ( 2 3 2 12 )

42

( 1 + 3 ) 2

( 3 + 5 ) 2

14 + 6 5

( 2 6 ) 2

( 2 7 ) 2

11 4 7

( 1 + 3 x ) 2

( 2 + 5 x ) 2

4 + 4 5 x + 5 x

( 3 3 x ) 2

( 8 6 b ) 2

64 16 6 b + 6 b

( 2 a + 5 a ) 2

( 3 y 7 y ) 2

9 y 2 6 y 7 y + 7 y

( 3 + 3 ) ( 3 3 )

( 2 + 5 ) ( 2 5 )

1

( 8 + 10 ) ( 8 10 )

( 6 + 7 ) ( 6 7 )

29

( 2 + 3 ) ( 2 3 )

( 5 + 2 ) ( 5 2 )

3

( a + b ) ( a b )

( x + y ) ( x y )

x y

2 5 + 3

4 6 + 2

2 ( 6 2 ) 17

1 3 2

1 4 3

4 + 3 13

8 2 6

2 3 7

3 + 7

5 3 + 3

3 6 + 6

2 3 2 10

2 8 2 + 8

4 + 5 4 5

21 + 8 5 11

1 + 6 1 6

8 3 2 + 18

16 + 2 3 + 24 2 3 6 14

6 2 4 + 12

3 2 3 + 2

5 2 6

6 a 8 a 8 a + 6 a

2 b 3 b 3 b + 2 b

2 6 5

Exercises for review

( [link] ) Simplify ( x 5 y 3 x 2 y ) 5 .

( [link] ) Simplify ( 8 x 3 y ) 2 ( x 2 y 3 ) 4 .

64 x 14 y 14

( [link] ) Write ( x 1 ) 4 ( x 1 ) 7 so that only positive exponents appear.

( [link] ) Simplify 27 x 5 y 10 z 3 .

3 x 2 y 5 z 3 x z

( [link] ) Simplify 1 2 + x by rationalizing the denominator.

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Source:  OpenStax, Algebra ii for the community college. OpenStax CNX. Jul 03, 2014 Download for free at http://cnx.org/content/col11671/1.1
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