# Lesson How to take a square root of a complex number

**This Lesson (How to take a square root of a complex number)** was created by by **ikleyn(359)** **About ikleyn**.

## How to take a square root of a complex number

Taking a root of a complex number was just considered in the lesson How to take a root of a complex number in this module.

In that lesson the original complex numbers were presented in the trigonometric form

where was the modulus and was the argument.

Now I will explain how to take a square root of a complex number written in the form

where and are real numbers.

So, let us suppose that the original complex number is presented in the form (1), and we will look for the square root in the similar form

where and are real numbers. Our goal is to calculate components and via given numbers and .

First of all, if

You can calculate

From the other side,

Comparing the real part and the imaginary part of these two expressions for

We should solve this system of equations to find unknown real numbers and via given real numbers and .

To solve the system, express from the second equation:

and substitute it to the first equation of the system. You will get

Simplify the last equation step by step:

You got the quadratic equation for .

Apply the **quadratic formula** to solve this quadratic equation (see the lesson Introduction into Quadratic Equations ):

Since is the square of the real number (

This means that there are two solutions for :

that differ by the sign only.

Now substitute these expressions for into the first equation of the system (3) to get :

This means that there are two solutions for :

They differ by the sign only.

The found values for and should be combined such a way to provide the correct sign of the product

### Summary

The square root of the complex number

The first value is the complex number

where

The second value is the complex number

where

The found values for and should be combined such a way to provide the correct sign of the product

Note that the second complex square root is the complex number opposite to the first one:

### Check

Let us check formulas for the complex square roots.

To make the check, calculate

It confirms that

Similar check confirms that

### A comparison with the trigonometric form of the square root

It was shown in the lesson How to take a root of a complex number that the modulus of the **n-th** root of the complex number is the **n-th** root of the modulus of the original complex number, and the

argument is **1/n-th** of the argument of that number.

Let us compare it with what the obtained formulas produce for the square root.

For the modulus of the square root the formulas produce

exactly as the trigonometric form does.

Regarding the argument, let us denote it as for the original complex number and as for the square root.

Then the formulas produce for

Note that

It is well known fact from **Trigonometry** that

Thus, we get

This is exactly the same as the **Trigonometric form** produces for the square root.

### Examples

**Example 1. Calculate**

We have , .

Substitute values , to the formulas for

So, the first complex square root is

The second complex square root is opposite to the first one:

Square roots of **1** are **1** and **-1**. as expected.

**Example 2. Calculate**

We have , .

Substitute values , to the formulas for

So,

The second complex square root is opposite to the first one:

Complex square roots of **-1** are

**Example 3. Calculate**

We have , .

Substitute values , to the formulas for

So,

The second complex square root is opposite to the first one:

Complex square roots of **-3** are

You can check that complex square roots of **-3** are

Simply square

Same for

**Example 4. Calculate** is positive real number.

We have , .

Substitute values , to the formulas for

So,

The second complex square root is opposite to the first one:

Complex square roots of **-d**. where is positive real number, are

You can check that complex square roots of **-d** are

Simply square

Same for

**Example 5. Calculate**

We have , .

Substitute values , to the formulas for

So,

The second complex square root is opposite to the first one:

Complex square roots of are

**Example 6. Calculate**

We have , .

Substitute values , to the formulas for

So,

The second complex square root is opposite to the first one:

Complex square roots of

**Example 7. Calculate**

We have , .

Substitute values , to the formulas for

So,

The second complex square root is opposite to the first one:

Both complex square roots of **0** are equal to **0** .

This is the only case when two values of the complex square roots merge to one complex number.

For your convenience, below is the list of my relevant lessons on complex numbers in this site in the logical order. They all are under the current topic **Complex numbers** in the section **Algebra II**.

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