Complex Number Conjugates (2023)

Video Transcript

In this video, we will learn how to use the conjugate of a complex number to evaluate expressions. We will begin by defining what we mean by the complex conjugate, before considering their properties and how these can be exploited to help us solve equations involving complex numbers. Throughout this video, we will look to, where possible, derive general results that can be used in more complicated complex number problems.

Every single complex number has associated with it another complex number, known as its conjugate. The definition of the word conjugate is having features in common but opposite or inverse in some particular. Outside of mathematics, it can mean to juxtapose or join together, indicating that a complex number and its conjugate have a special relationship. Let’s look at the definition. For a complex number of the form 𝑎 plus 𝑏𝑖, its conjugate denoted by 𝑧 bar or 𝑧 star is 𝑎 minus 𝑏𝑖. In layman’s terms, the conjugate of a complex number is found by changing the sign for the imaginary part of the number.

For example, a complex number given as three plus two 𝑖 — we’ll have a complex conjugate of three minus two 𝑖. Similarly, a complex number, four minus six 𝑖 — we’ll have a conjugate of four plus six 𝑖. And in fact, the complex conjugate of the conjugate is four minus six 𝑖. And we can see that we can generalize this and say that the complex conjugate of the conjugate is simply the original number. It’s 𝑧.

And what about a purely real number? Will this have a conjugate? Well yes. In fact, we can say that a real number is of the form 𝑎. This is actually a complex number. But it’s one of the form 𝑎 plus zero 𝑖. Its imaginary part is zero. Since we change the sign of the imaginary part to find the conjugate, the conjugate of this number will be 𝑎 minus zero 𝑖. But of course, this is still 𝑎. So the conjugate of the real number is simply that number. Another beauty of the conjugate is that it shares all of the same properties as any other complex number. It’s distributive over addition and multiplication. And we’re going to see now what that might look like.

If 𝑠 equals eight plus two 𝑖, what is 𝑠 plus 𝑠 star?

Remember, 𝑠 star is the conjugate of the complex number 𝑠, given by eight plus two 𝑖. We can say that the complex conjugate of a number 𝑧, given by 𝑎 plus 𝑏𝑖, is 𝑧 star equals 𝑎 minus 𝑏𝑖. Our complex number has a real part of eight and an imaginary part of two. This means its complex conjugate is eight minus two 𝑖. And this also means that the sum of the two numbers is eight plus two 𝑖 plus eight minus two 𝑖. And we add these by adding their real parts and separately adding their imaginary parts, which we often think of like collecting like terms. Eight plus eight is 16. And two 𝑖 minus two 𝑖 is zero. And we see that 𝑠 plus 𝑠 star is 16.

(Video) Complex conjugates | Imaginary and complex numbers | Precalculus | Khan Academy

Notice how the sum of a complex number and its conjugate is just a real number. And this makes a lot of sense if we consider the general form. 𝑧 plus 𝑧 star is 𝑎 plus 𝑏𝑖 plus 𝑎 minus 𝑏𝑖. 𝑏𝑖 minus 𝑏 𝑖 is zero. And we therefore see that the sum of a complex number with its complex conjugate is simply two 𝑎. Or alternatively, we might say that the sum of a complex number and its conjugate is two lots of the real part of that number.

Similarly, their difference is 𝑎 plus 𝑏𝑖 minus 𝑎 minus 𝑏𝑖. We distribute the second bracket by multiplying each part by negative one. And we get 𝑎 plus 𝑏𝑖 minus 𝑎 plus 𝑏𝑖. This time, 𝑎 minus 𝑎 is zero, which is equal to two 𝑏𝑖. We can therefore say that the difference between a complex number and its conjugate is two 𝑖 multiplied by the imaginary part of that complex number. We’ll now look at a detailed example of an equation involving the sum and difference of a complex number and its conjugate.

Find the complex number 𝑧 which satisfies the following equations. 𝑧 plus 𝑧 star is equal to negative five. 𝑧 star minus 𝑧 is equal to three 𝑖.

Remember, 𝑧 star represents the conjugate of the complex number 𝑧. 𝑧 will be of the form 𝑎 plus 𝑏𝑖, where 𝑎 and 𝑏 are real numbers. And 𝑧 star will be of the form 𝑎 minus 𝑏𝑖. We changed the sign of the imaginary part. The first equation tells us the sum of these two numbers. We can form an expression for their sum by using the general form of the complex number. It’s 𝑎 plus 𝑏𝑖 plus 𝑎 minus 𝑏𝑖. This simplifies to two 𝑎 or two multiplied by the real part of 𝑧.

Now in fact, we know that the sum of these numbers is negative five. So we can say that negative five is equal to two multiplied by the real part of 𝑧. And we solve by dividing through by two. And we see that the real part of 𝑧 is equal to negative five over two.

The second equation tells us the difference of these two numbers. That’s 𝑎 minus 𝑏𝑖 minus 𝑎 plus 𝑏𝑖. We distribute the second bracket by multiplying each term by negative one. And we get 𝑎 minus 𝑏𝑖 minus 𝑎 minus 𝑏𝑖, which is negative two 𝑏𝑖. This is equal to negative two 𝑖 multiplied by the imaginary part of 𝑧. And of course, we know that this is actually equal to three 𝑖. So we see that three 𝑖 is equal to negative two 𝑖 multiplied by the imaginary part of 𝑧. To solve this equation, we divide through by negative two 𝑖. And since 𝑖 divided by 𝑖 is one, we see that the imaginary part of 𝑧 is negative three over two.

(Video) Complex Numbers: Operations, Complex Conjugates, and the Linear Factorization Theorem

It’s useful to spot that we could alternatively have multiplied through by negative one. That would’ve given us 𝑧 minus 𝑧 star is equal to negative three 𝑖. But this would’ve resulted in the same solution. So we know that the complex number 𝑧, which satisfies the two equations given, has a real part of negative five over two and an imaginary part of negative three over two. So this solution is negative five over two minus three over two 𝑖. You should now be able to see why learning the definition of the sum and difference of a complex number and its conjugate can be a real time saver. Next, we’ll consider the product of a complex number and its conjugate.

Find the complex conjugate of one plus 𝑖 and the product of this number with its complex conjugate.

Remember, the complex conjugate is found by changing the sign of the imaginary part of the complex number. This means that the complex conjugate of one plus 𝑖 is one minus 𝑖. And we want to find the product of one plus 𝑖 and one minus 𝑖. We find the product of these two numbers just as we would with any two binomials.

The FOIL method can be a nice way to do this. F stands for first. We multiply the first term in the first bracket by the first term in the second bracket. One multiplied by one is one. O stands for outer. We multiply the outer two terms. One multiplied by negative 𝑖 is negative 𝑖. I stands for inner. We multiply the inner terms. And 𝑖 multiplied by one is 𝑖. And finally, L stands for last. We multiply the last term in each bracket. 𝑖 multiplied by negative 𝑖 is negative 𝑖 squared. And of course, 𝑖 squared is equal to negative one. Since negative 𝑖 plus 𝑖 is zero, this becomes one minus negative one, which is two. And the product of this number with its complex conjugate is two. We can generalize this result. And we’ll soon see that there are a number of applications for the complex conjugate.

Let 𝑎 plus 𝑏𝑖 be a complex number whose conjugate is 𝑎 minus 𝑏𝑖. Their product is 𝑎 plus 𝑏𝑖 multiplied by 𝑎 minus 𝑏𝑖. If we expand these brackets as before, we get 𝑎 squared minus 𝑎𝑏𝑖 plus 𝑎𝑏𝑖 minus 𝑏 squared 𝑖 squared. And of course, negative 𝑎𝑏𝑖 plus 𝑎𝑏𝑖 is zero. And you might notice this is just like the difference of two squares. We’ll substitute negative one for 𝑖 squared. And we see that the product of this complex number with its conjugate is 𝑎 squared plus 𝑏 squared. So 𝑧 multiplied by 𝑧 star is 𝑎 squared plus 𝑏 squared. For our last two examples, we’ll consider some more complicated questions involving sums and products of complex numbers and their conjugates.

Consider 𝑧 equals five minus 𝑖 root three and 𝑤 equals root two plus 𝑖 root five. Part one, calculate 𝑧 star and 𝑤 star. Part two, find 𝑧 star plus 𝑤 star and 𝑧 plus 𝑤 star. Part three, find 𝑧 star 𝑤 star and 𝑧𝑤 star.

(Video) What are complex conjugates

In this question, we’ve been given two complex numbers. And we need to find their conjugates. Remember, to find the conjugate of a complex number, we change the sign of its imaginary part. This means that the complex conjugate of five minus 𝑖 root three is five plus 𝑖 root three. Now, don’t worry that the 𝑖 is in front of the root three here. Yes, that’s not of the general form. But it’s a sensible way to write it when we’re dealing with roots.

If we, instead, chose to write root three multiplied by 𝑖, it could look a little bit like we’re finding the square root of three 𝑖 rather than the square root of three multiplied by 𝑖. Next, we see since 𝑤 is root two plus 𝑖 root five, its conjugate is root two minus 𝑖 root five.

For part two, we need to calculate two numbers. We need to find the sum of the conjugates. And we need to find the conjugate of the sum of the original complex numbers. Let’s begin by finding the sum of their conjugates. That’s five plus 𝑖 root three plus root two minus 𝑖 root five. We can find their sum by collecting like terms. And when we do, we see that 𝑧 star plus 𝑤 star is five plus root two plus 𝑖 multiplied by root three minus root five. And we can also work out 𝑧 plus 𝑤 star.

This time, we add 𝑧 and 𝑤 first before finding the conjugate. That’s the conjugate of five minus 𝑖 root three plus root two plus 𝑖 root five. Once again, we do this by adding the real parts and then the imaginary parts. We get five plus root two plus 𝑖 multiplied by negative root three plus root five. So we change the sign of the imaginary part to find the conjugate. And we get five plus root two minus 𝑖 multiplied by negative root three plus root five. And in fact, if we multiply the imaginary part by negative one, we see that this is equal to five plus root two plus 𝑖 multiplied by root three minus root five. Notice that 𝑧 star plus 𝑤 star is actually the same as 𝑧 plus 𝑤 star.

For this third part, we need to find the product of the conjugate of 𝑧 and 𝑤. That’s five plus 𝑖 root three multiplied by root two minus 𝑖 root five. Multiplying the first term in each bracket, we get five root two. Multiplying the outer terms, we get negative five 𝑖 root five. Multiplying the inner terms, that’s 𝑖 root three multiplied by root two, gives us 𝑖 root six. And multiplying the last terms gives us 𝑖 root three multiplied by negative 𝑖 root five, which is negative 𝑖 squared multiplied by root 15. And since 𝑖 squared is equal to negative one, this last term becomes positive root 15. Collecting like terms, we see that the product of the conjugate of 𝑧 and 𝑤 is five root two plus root 15 plus 𝑖 multiplied by root six minus five root five.

Next, we find the product of 𝑧 and 𝑤 and then find their conjugate. This time, their product is five minus 𝑖 root three multiplied by root two plus 𝑖 root five. Expanding these brackets, and we get five root two plus root 15 minus 𝑖 multiplied by root six minus five root five. And it follows that the conjugate of this number is five root two plus root 15 plus 𝑖 multiplied by root six minus five root five, once again.

(Video) Complex conjugates example | Imaginary and complex numbers | Precalculus | Khan Academy

We’ve seen in this example that, for complex numbers 𝑧 and 𝑤, the sum of their conjugates is equal to the conjugate of their sum. And we’ve also seen that the product of their conjugates is equal to the conjugate of their product. And this in fact is a general rule, which holds for all complex numbers.

Solve two 𝑧 minus 𝑧 bar equals five in ℂ.

Here we have a complex number. And we can say that that could be of the form 𝑎 plus 𝑏𝑖, where 𝑎 and 𝑏 are real numbers. 𝑧 bar is its conjugate. That’s 𝑎 minus 𝑏𝑖. And ℂ is used to denote the set of complex numbers. Let’s substitute 𝑧 and 𝑧 bar into our equation.

When we do, we see that two multiplied by 𝑎 plus 𝑏𝑖 minus 𝑎 minus 𝑏𝑖 equals five. Then, we distribute the brackets by multiplying the real and imaginary part by the number on the outside. For the first bracket, that’s two multiplied by 𝑎 and two multiplied by 𝑏𝑖. And for the second bracket, that’s negative one multiplied by 𝑎 plus negative one multiplied by negative 𝑏𝑖. So we get two 𝑎 plus two 𝑏𝑖 minus 𝑎 plus 𝑏𝑖 equals five. And of course, we can collect like terms. And we see that 𝑎 plus three 𝑏𝑖 is equal to five.

Now, this number is purely real. Or we can say it’s a complex number whose imaginary part is zero. And once we’ve identified that, we can equate the real and imaginary parts. We see that 𝑎 must be equal to five. And three 𝑏 must be equal to zero. In fact, if three 𝑏 is equal to zero, 𝑏 must also be equal to zero. We’re solving for 𝑧. And we’ve established that 𝑎 — its real part is equal to five. And 𝑏 — its imaginary part is equal to zero. So we could say that 𝑧 is equal to five plus zero 𝑖 though we don’t need to write the imaginary part. So we say that 𝑧 is simply equal to five.

In this video, we’ve learned that a complex number of the form 𝑎 plus 𝑏𝑖 has a complex conjugate 𝑎 minus 𝑏𝑖. And this is often denoted by 𝑧 star or sometimes 𝑧 bar. We’ve also seen that, for two complex numbers 𝑧 one and 𝑧 two, there exist a whole set of rules that relate the complex numbers with their conjugates. And finally, we’ve learned that a complex number is equal to its conjugate if and only if its imaginary part is zero, in other words, if it’s a real number.

(Video) Complex Numbers : Complex Conjugates : ExamSolutions

FAQs

How do you find the conjugate of a complex number? ›

You find the complex conjugate simply by changing the sign of the imaginary part of the complex number. To find the complex conjugate of 4+7i we change the sign of the imaginary part. Thus the complex conjugate of 4+7i is 4 - 7i.

What is a complex conjugate example? ›

Every complex number has a complex conjugate. The complex conjugate of a + bi is a - bi. For example, the conjugate of 3 + 15i is 3 - 15i, and the conjugate of 5 - 6i is 5 + 6i.

What is a complex conjugate? ›

What is a Complex Conjugate? A complex conjugate of a complex number is another complex number whose real part is the same as the original complex number and the magnitude of the imaginary part is the same with the opposite sign.

What is a complex conjugate and what is it used for? ›

The complex conjugate is used in the rationalization of complex numbers and for finding the amplitude of the polar form of a complex number. One application of the complex conjugate in physics is in finding the probability in quantum mechanics.

What is a conjugate formula? ›

A math conjugate is formed by changing the sign between two terms in a binomial. For instance, the conjugate of x + y is x - y. We can also say that x + y is a conjugate of x - y. In other words, the two binomials are conjugates of each other.

What is a conjugate example? ›

What is a conjugate in maths? In maths, Conjugates are defined as a pair of binomials with identical terms but parting opposite arithmetic operators in the middle of these similar terms. For example, p – q is the conjugate of p + q.

What is the conjugate of 1? ›

For example, the conjugate of i is -i, the "other" square root of -1.

What is the conjugate of 3 4i? ›

In mathematics, the complex conjugate of a complex number is the number with equal real part and imaginary part equal in magnitude but opposite in sign. For example, the complex conjugate of 3 + 4i is 3 − 4i.

How do you write a complex conjugate in standard form? ›

A complex number is the sum of a real number and an imaginary number. A complex number is expressed in standard form when written a+bi where a is the real part and bi is the imaginary part. For example, 5+2i is a complex number.

Why do we conjugate a complex number? ›

A conjugate of a complex number is another complex number which has the same real part as the original complex number and the imaginary part has the same magnitude but opposite sign. If we multiply a complex number with its conjugate, we get a real number.

What is Z into Z conjugate? ›

The notation for the complex conjugate of z is either ˉz or z∗. The complex conjugate has the same real part as z and the same imaginary part but with the opposite sign. That is, if z=a+ib, then z∗=a−ib.

What is the complex conjugate of 8? ›

As a general rule, the complex conjugate of a+bi is a−bi . Therefore, the complex conjugate of 8+i is 8−i .

What is the purpose of a conjugation? ›

Conjugation is the process by which one bacterium transfers genetic material to another through direct contact. During conjugation, one bacterium serves as the donor of the genetic material, and the other serves as the recipient. The donor bacterium carries a DNA sequence called the fertility factor, or F-factor.

What is the function of a conjugate? ›

The conjugate function f* (y) is the maximum gap between the linear function yx and the function f (x). Example 1 (Affine function) f (x) = ax + b. By definition, the conjugate function is given by f∗ (y) = supx (yx − ax − b). As a function of x, the difference is bounded iff y−a = 0.

How do you simplify complex conjugates? ›

To divide complex numbers, write the division as a fraction. Then, multiply both the numerator and the denominator by the conjugate of the denominator. Then, simplify using FOIL or the Distributive Property. Simplifying complex numbers is essential in understanding how complex numbers work in their various operations.

What is a conjugate of 2? ›

However, you're trying to find the complex conjugate of just 2 . While this may not look like a complex number in the form a+bi , it actually is! Think of it this way: 2+0i. So, the complex conjugate of 2+0i would be 2−0i , which is still equal to 2 .

What is the conjugate of OH? ›

The conjugate base of OH - is O 2 - . Q. What will be the conjugate bases for the Brönsted acids: HF, H2SO4 and HCO3?

What are the 3 steps to conjugate? ›

Terms in this set (3)
  1. Prenez l'infitif. Take the infinitif.
  2. Laissez tomber la terminaison. Drop the ending.
  3. Ajoutez la terminaison correcte. Add the correct ending.

How many types of conjugation are there? ›

The good news is that most of these tenses are formed by the use of auxiliary verbs, such as will, have, be, so it's not as if you have to learn up to 16 different conjugations. In English, we can break the tenses down to five main areas: past, present, future, perfect and conditional.

What is a conjugate pair example? ›

Example. HClO 4 ⇌ H + + ClO 4 - When donates the proton to form ,the pair, HClO 4 - and ClO 4 - acts as a conjugate base acid pair. HCl ⇌ H + + Cl - When donates the proton to form , the pair, HCl and Cl - acts as a conjugate base acid pair.

What is the conjugate of √? ›

What is Conjugate in Math?
BinomialConjugate
Surd1 + √31 - √3
Complex Number2 + i2 - i

What is the conjugate of 5? ›

No matter if you express 5 as an irrational number ( 5+√0 ) or as an imaginary number ( 5+0i ), then conjugates will be equal to 5 either way ( 5−√0 and 5−0i ). Therefore, the conjugate of 5 is 5 .

What is the conjugate of 2i? ›

Answer. Answer: the complex conjugate of 0+2i is 0−2i , which is equal to −2i .

What is the conjugate of 7 2i? ›

For the number 7 + 2i, the complex conjugate number is 7 - 2i. Therefore, the complex conjugate number is 7 - 2i.

What is the conjugate of 5i? ›

Here 5i is the imaginary part and is positive therefore the conjugate of 5i is −5i .

What is conjugate 7i? ›

The complex conjugate of 7i is −7i.

What is the complex conjugate of 6 7i? ›

Complex roots always occur in conjugate pairs. The conjugate of 6 + 7i is 6 - 7i. Here “i'' is a representation of √-1. Hence the solution 6 ± 7i can also be written as 6 ± √-7.

How do you solve complex numbers step by step? ›

  1. Step 1: Multiply the complex numbers in the same manner as polynomials. ...
  2. Step 2: Simplify the expression. ...
  3. Step 3: Write the final answer in standard form.
  4. Step 1: Multiply the complex numbers in the same manner as polynomials.
  5. Step 2: Simplify the expression.
  6. Step 3: Write the final answer in standard form.
15 Dec 2009

Does every complex number have a conjugate? ›

In mathematics, every complex number (a two-component number involving a real number added to an imaginary number) has a complex conjugate. This complex conjugate will have the same real part, while the imaginary part will have the same magnitude but the opposite sign.

Why is it important to conjugate correctly? ›

Using correct verb forms is crucial to communicating coherently. Understanding how to apply different tenses and properly conjugate verbs will give you the tools with which to craft clear, effective sentences.

Is z bar the conjugate? ›

the conjugate of a complex number Z bar (\[\overline Z \]) is the number with an equal real part and an imaginary part equal in magnitude but opposite in sign so we can notice easily that the complex conjugate of a complex number is obtained by just changing the sign of the imaginary part.

What is the difference between z and Z+? ›

Z+ is the set of all positive integers (1, 2, 3, ...), while Z- is the set of all negative integers (..., -3, -2, -1). Zero is not included in either of these sets . Znonneg is the set of all positive integers including 0, while Znonpos is the set of all negative integers including 0.

What is the conjugate of 5 4i? ›

Here the given complex number is \[5 - 4i\], in order to conjugate this we have to change the sign in the middle of the real number and an imaginary number i.e. change the negative sign to positive sign. Therefore the complex conjugate of the given complex number \[5 - 4i\] is \[5 + 4i\].

What is the conjugate of 7 − 8i? ›

Hence, the complex conjugate of 7 - 8 i is 7 + 8 i .

What is the conjugate of the complex number 7 3i? ›

Complex Conjugates
Complex NumberComplex Conjugate
7 + 3i7 - 3i
3 - 2i3 + 2i
-2 + 5i-2 - 5i
i-i

What are the 4 conjugations? ›

The Present Indicative (amō), showing the Present Stem. The Present Infinitive (amā-re), showing the Present Stem. The Perfect Indicative (amāv-ī), showing the Perfect Stem. The neuter of the Perfect Participle (amāt-um), or, if that form is not in use, the Future Active Participle (amāt-ūrus), showing the Supine Stem.

Why is it called conjugation? ›

From the Latin "join together," conjugation (pronunciation: kon-je-GA-shen) refers to the inflection of verbs for person, number, tense, and mood, also called a verbal paradigm.

What are known as conjugate? ›

adjective. con·​ju·​gat·​ed ˈkän-jə-ˌgā-təd. : formed by the union of two compounds or united with another compound.

What is the value of conjugate? ›

Complex conjugates give us another way to interpret reciprocals. You can easily check that a complex number z = x + yi times its conjugate x – yi is the square of its absolute value |z|2. Therefore, 1/z is the conjugate of z divided by the square of its absolute value |z|2.

What is conjugate of 3i? ›

Thus the complex conjugate of 1 − 3i is 1+3i. Example.

How do you find the conjugate of 3 2i? ›

So, a complex conjugate, simply changes the sign of the imaginary part which is the part with $i$. This means that it either goes from positive to negative or from negative to positive. As a general, the complex conjugate of $a + bi$ will be $a - bi$. Hence, the complex conjugate of $3 - 2i$ is $3 + 2i$.

What is the conjugate of 4i 3? ›

In mathematics, the complex conjugate of a complex number is the number with equal real part and imaginary part equal in magnitude but opposite in sign. For example, the complex conjugate of 3 + 4i is 3 − 4i. .

How do you find the conjugate of a complex number 3 4i? ›

Example If z =3+4i, then the conjugate of z is z = 3 − 4i.

What is the conjugate of 8i? ›

To find a complex conjugate, simply change the sign of the imaginary part (the part with the i ). This means that it either goes from positive to negative or from negative to positive. As a general rule, the complex conjugate of a+bi is a−bi . Therefore, the complex conjugate of 8+i is 8−i .

What is the conjugate of 8 4i? ›

Explanation: Simply switch the sign of the imaginary part (the part with the i ). For example, the (complex) conjugate of a+bi is a−bi . Thus, the complex conjugate of 8+4i is 8−4i .

What is the conjugate of 2 4i? ›

To find a complex conjugate, just flip the sign of the part with the i . The complex conjugate of 2+4i is simply 2−4i .

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