# Difference between revisions of "Square root"

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All numbers have two square roots, although they don't have to be distinct. For example, the square root of zero has two values: +0 and -0. | All numbers have two square roots, although they don't have to be distinct. For example, the square root of zero has two values: +0 and -0. | ||

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+ | This has important implications when solving equations, in that, if the square root of both sides is taken, one must be careful to allow for both the positive and negative square root. A well known example is [[completing the square]] to solve a [[quadratic equation]]. | ||

==Irrational numbers as square roots of whole numbers== | ==Irrational numbers as square roots of whole numbers== |

## Revision as of 11:53, 22 April 2007

The **square root** of a number *x* is the number that, multiplied by itself, results in *x*. The symbol for the square root of *x* is .

## Contents

## Two square roots for each number

All numbers have two square roots, one positive and the other negative:

- and

When speaking of "*the* square root of *x*", people usually refer to the positive square root. For example:

All numbers have two square roots, although they don't have to be distinct. For example, the square root of zero has two values: +0 and -0.

This has important implications when solving equations, in that, if the square root of both sides is taken, one must be careful to allow for both the positive and negative square root. A well known example is completing the square to solve a quadratic equation.

## Irrational numbers as square roots of whole numbers

Some square roots are relatively simple whole numbers, for example, 3 the square root of 9. Others are less amenable to expression, such as the square root of 2 (=1.414...), which has been proven to be an irrational number.

## Square roots of negative numbers

Negative numbers have square roots that lie outside the real numbers: Multiplying a real number by itself always results in a positive number. The square roots of negative numbers involve what are called imaginary numbers:

- which for example leads to

The statements in "Two square roots for each number" also apply to negative numbers.

## Alternate expressions and notations

Many computer languages and spreadsheet programs use "*sqr(x)*" or "*sqrt(x)*" to describe (or calculate) the square root of *x*. This is also the common notation used when mathematical symbols are not conveniently available.

The square root of a number can also be denoted as . This can readily be seen by the rule of adding powers when multiplying:

If superscript is not available, the common way of writing this is **x^(1/2)**.