9.1 Square root expressions

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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 concept of square root, be able to distinguish between the principal and secondary square roots of a number, be able to relate square roots and meaningful expressions and to simplify a square root expression.

Overview

Square Roots
Principal and Secondary Square Roots
Meaningful Expressions
Simplifying Square Roots

Square roots

When we studied exponents in Section [link] , we noted that $4^{2} = 16$ and ${(- 4)}^{2} = 16.$ We can see that 16 is the square of both 4 and $- 4$ . Since 16 comes from squaring 4 or $- 4$ , 4 and $- 4$ are called the square roots of 16. Thus 16 has two square roots, 4 and $- 4$ . Notice that these two square roots are opposites of each other.

We can say that

Square root

The square root of a positive number

x

is a number such that when it is squared the number

x

results.

Every positive number has two square roots, one positive square root and one negative square root. Furthermore, the two square roots of a positive number are opposites of each other. The square root of 0 is 0.

Sample set a

The two square roots of 49 are 7 and −7 since

$\begin{array}{l} 7^{2} = 49 & and & {(- 7)}^{2} = 49 \end{array}$

The two square roots of $\frac{49}{64}$ are $\frac{7}{8}$ and $\frac{- 7}{8}$ since

$\begin{array}{l} {(\frac{7}{8})}^{2} = \frac{7}{8} \cdot \frac{7}{8} = \frac{49}{64} & and & {(\frac{- 7}{8})}^{2} = \frac{- 7}{8} \cdot \frac{- 7}{8} = \frac{49}{64} \end{array}$

Practice set a

Name both square roots of each of the following numbers.

6 and −6

5 and −5

100

10 and −10

8 and −8

1 and −1

$\frac{1}{4}$

$\frac{1}{2} and - \frac{1}{2}$

$\frac{9}{16}$

$\frac{3}{4} and - \frac{3}{4}$

$0.1$

$0.1$ and $- 0.1$

$0.09$

$0.03$ and $- 0.03$

Principal and secondary square roots

There is a notation for distinguishing the positive square root of a number $x$ from the negative square root of $x$ .

Principal square root: $\sqrt{x}$

x

is a positive real number, then

\sqrt{x}

represents the positive square root of

x

. The positive square root of a number is called the principal square root of the number.

Secondary square root: $- \sqrt{x}$

- \sqrt{x}

represents the negative square root of

x

. The negative square root of a number is called the secondary square root of the number.

- \sqrt{x}

indicates the secondary square root of

x

Radical sign, radicand, and radical

In the expression

\sqrt{x,}

\sqrt{\begin{matrix}  \end{matrix}}

is called a radical sign .

x

is called the radicand .

\sqrt{x}

is called a radical .

The horizontal bar that appears attached to the radical sign, $\sqrt{\begin{matrix} \end{matrix}}$ , is a grouping symbol that specifies the radicand.

Because $\sqrt{x}$ and $- \sqrt{x}$ are the two square root of $x$ ,

$\begin{array}{l} (\sqrt{x}) (\sqrt{x}) = x & and & (- \sqrt{x}) (- \sqrt{x}) = x \end{array}$

Sample set b

Write the principal and secondary square roots of each number.

$\begin{matrix} 9. & \begin{array}{l} Principal square root is \sqrt{9} = 3. \\ Secondary square root is - \sqrt{9} = - 3. \end{array} \end{matrix}$

$\begin{matrix} 15. & \begin{array}{l} Principal square root is \sqrt{15} . \\ Secondary square root is - \sqrt{15} . \end{array} \end{matrix}$

Use a calculator to obtain a decimal approximation for the two square roots of 34. Round to two decimal places.
$\begin{array}{l} On the Calculater \\ \begin{array}{l} Type & 34 \\ Press & \begin{matrix} \sqrt{x} \end{matrix} \\ Display reads: & 5.8309519 \\ Round to 5.83. \end{array} \end{array}$
Notice that the square root symbol on the calculator is $\sqrt{\begin{matrix} \end{matrix}}$ . This means, of course, that a calculator will produce only the positive square root. We must supply the negative square root ourselves.

$\begin{array}{l} \sqrt{34} \approx 5.83 & and & - \sqrt{34} \approx - 5.83 \end{array}$
Note: The symbol ≈ means "approximately equal to."

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Source: OpenStax, Basic mathematics review. OpenStax CNX. Jun 06, 2012 Download for free at http://cnx.org/content/col11427/1.2

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