Imaginary Numbers - Calculating | Value of i in Math (2024)

A Greek mathematician called Hero of Alexandria first invented imaginary numbers. Later in 1572, an Italian mathematician Gerolamo Cardano developed the rules for multiplying imaginary numbers. These numbers are helpful in finding the square roots of negative numbers.

Let us learn more about imaginary numbers along with their definition, examples, and geometrical interpretation. Also, let us see how to do calculations on these numbers.

1.	What are Imaginary Numbers?
2.	Geometrical Interpretation of Imaginary Numbers
3.	i in Math
4.	Calculating Imaginary Numbers
5.	Tips and Tricks on Imaginary Numbers
6.	FAQs on Imaginary Numbers

What are Imaginary Numbers?

Imaginary numbers are numbers that result in a negative number when squared. They are also defined as the square root of negative numbers. An imaginary number is the product of a non-zero real number and the imaginary unit "i" (which is also known as "iota"), where i = √(-1) (or) i² = -1.

Let's try squaring some real numbers:

(−2)² = −2×−2 = 4

5² = 5×5 = 25

(1.3)² = 1.3×1.3 = 1.69

Is any of the results a negative number? No. It means the square of any real number is always positive. Then what number results in a negative square? It is an imaginary number. In math, we come across the square root of negative numbers many times, especially in the case of solving quadratic equations using the quadratic formula. In such cases, the usage of imaginary numbers is mandatory. Here are some imaginary numbers examples:

√(-4) = √(-1) · √4 = i (2) = 2i
√(-3) = √(-1) · √3 = i √3

In the above examples, 2i and i √3 are imaginary numbers. We can see that each of these numbers is a product of a non-zero real number and i. Thus, we can derive a rule for imaginary numbers which is:

√(-x) = i √x

These are a part of complex numbers, where a complex number is the sum of a real number and an imaginary number. i.e., a complex number is of the form a + ib, where both 'a' and 'b' are real numbers and here bi is an imaginary number.

Geometrical Interpretation of Imaginary Numbers

We usually represent a complex number a+bi by a point (a, b) in the Argand plane. For example, a complex number 1-3i represents the point (1, -3) on the Argand plane. So an imaginary number bi (which can be written as 0 + bi) represents a point (0, b) on the plane and hence it is a point on the vertical axis (imaginary axis). Thus, the imaginary numbers always lie on the vertical axis of an Argand plane. Here are a few examples.

i in Math

What exactly is the term i in the complex number x+iyx+iy corresponding to the point P(x, y)? Clearly, "i" cannot be a real number, because if i was real, then x+iyx+iy would also be real, and would lie on the real axis itself. Thus, if i was real, then x+iy would only represent points on the real axis, rather than points in a plane.

If we want to represent points in a plane using numbers, i must be a non-real number, in the sense that it must not lie in the Real set. We interpret i in math as follows: "i is one unit in the direction perpendicular to the real axis". In the above figure, we can see that the point (0, 1) is nothing but "i".

Thus, in the complex number x+iy, the term iy becomes a non-real number: it represents y times i, that is, y units in the i direction. Hence x+iy represents a point that can be reached by moving x units in the Real direction and y units in the i direction (from the origin):

Value of i

It turns out that arithmetically, i²=−1. In other words, the value of i is the square root of −1. For now, don’t ask how! As we said earlier, the various different parts of the puzzle that is Complex Numbers will fall into place as you delve deeper into this subject.

At this point, just keep in mind that:

i is a non-real number (it lies outside the Real set).
i represents one unit perpendicular to the Real direction.
yi represents y units perpendicular to the Real direction
x+iy represents the point (x, y)
i is the square root of −1, or, i²=−1.

When we say that i is a non-real number, we do not mean that i does not exist or is a figment of our imagination. We mean to say that i is non-real in the sense that it does not like in the Real set. However, it is a perfectly valid mathematical entity. i is also known by the name "iota".

Calculating Imaginary Numbers

We can do all calculations on imaginary numbers also just like how we do with real numbers. Let us see how we do them.

Adding/Subtracting Imaginary Numbers

Adding or subtracting imaginary numbers is just like how we combine the like terms in algebra. For example:

2i + 3i = 5i
2i - 3i = -i

Multiplying Imaginary Numbers

We multiply the imaginary numbers just like how we multiply the terms in algebra. Here, we may have to use the rule of exponents a^m × aⁿ = a^m+n. But here, we have to take care of the fact that i² = -1. Here are some examples.

2i × 3i = 6i² = 6(-1) = -6
3i² × -5i³ = -15i⁵ = -15 (i²)² i = -15 (-1)² i = -15i

We may feel that simplifying the powers of iota is difficult. Here are some rules that make the process of finding powers of "i" easier while multiplying complex numbers.

i^4k = 1
i^4k+1 = 1
i^4k+2 = -1
i^4k+3 = -i

where k is a whole number. These rules state that "i" raised to a number is equal to the "i" raised to the number which is the remainder obtained by dividing the original number by 4. For example:

i⁴ = i⁰ = 1
i¹⁷ = i¹ = i

Any power of i is equal to one of 1, i, -i, and -1 after simplification. We can understand this from the figure below.

These rules really made calculating the product of imaginary numbers very easy.

Dividing Imaginary Numbers

While dividing imaginary rules, we use the rule of exponents a^m / aⁿ = a^m-n. In the result after division, we usually do not keep "i" in the denominator. If we get so, then we use the rule 1/i = -i (this is because 1/i = 1/i · i/i = i/i² = i/(-1) = -i). Here are some examples:

4i/2i = 2
3i³ / 4i⁶ = 3/(4i³) = 3/(4(i²)(i)) = -3/(4i) = (-3/4)(-i) = 3i/4

Tips and Tricks on Imaginary Numbers

When the minus sign comes out of the square root, it becomes i because the value of i in math is, i = √(-1).
\(\sqrt[n]{x}\) can be simplified using the imaginary numbers where x is negative and n is even number.
When "i" is the denominator (or in case of negative powers of i), use the rule 1/i= -i.
iⁿ = i^r, where 'r' is the remainder obtained by dividing n by 4. Then we can apply one of the rules: i² = -1, i³ = -i, i⁴ = 1.

FAQs on Imaginary Numbers

What is Imaginary Numbers Definition?

An imaginary number is a number that is the product of a non-zero real number and the iota "i". Here, i = √(-1) or i² = -1. These numbers are helpful to find the square root of negative numbers. Some examples of imaginary numbers are -4i, 6i, i, etc.

What is the Value of i in Math?

"i" in math is known as an imaginary unit. Its value is √-1. It is used to calculate the square roots of negative numbers. It is also a part of complex numbers.

What is the Process of Simplifying Imaginary Numbers?

To add/subtract imaginary numbers, we just add/subtract their coefficients. For example, -2i + 8i - 4i = i. We multiply/divide imaginary numbers just like how we do with terms in algebra. But we use the facts i² = -1 and 1/i = -i while multiplying/dividing imaginary numbers.

What is the Difference Between Imaginary Numbers and Complex Numbers?

An imaginary number is of the form bi whereas a complex number is of the form a+bi where both a and b are real numbers. All imaginary numbers are complex numbers (as 'a' may be 0) but all complex numbers may not be imaginary numbers.

What is the Difference Between Imaginary Numbers and Real Numbers?

A real number can be a natural number, a whole number, an integer, a rational number, or an irrational number. But an imaginary number is the product of a real number and "i" where i = √(-1). We use imaginary numbers to evaluate the square root of negative numbers. For example, √(-9) = √(-1) . √9 = i (3) = 3i.

What are Imaginary Numbers Rules?

Here are some rules that are helpful in calculating imaginary numbers.

i = √(-1)
i² = -1
i³ = -i
i⁴ = 1
iⁿ = i^r, where r is the remainder obtained by dividing n by 4.
1/i = -i and this rule is helpful for calculating the negative powers of i.

How to Write a Real Number in Terms of i in Math?

Any real number x can be written as x + i0. In other words, a real number can also be thought of as a complex number in which the non-real part is 0. Thus, every real number is a complex number. Put differently, the Real set is a subset of the Complex set. This should be geometrically obvious as well: the Real Line is a subset of the Complex Plane.

What are the Applications of Imaginary Numbers?

Imaginary numbers are used to simplify the square roots of negative numbers.
They are used in solving quadratic equations.
They are used in the formation of complex numbers.
They are used in physics and in advanced calculus.

Is 0 an Imaginary Number?

Though 0 can be written as 0i, it is not an imaginary number as it is not associated with the square root of any negative number. That is why we clearly mention in the imaginary number definition that it is of the form bi where 'b' is a non-zero real number.

Imaginary Numbers - Calculating | Value of i in Math (2024)

FAQs

What is the formula for imaginary i? ›

Imaginary numbers are numbers that result in a negative number when squared. They are also defined as the square root of negative numbers. An imaginary number is the product of a non-zero real number and the imaginary unit "i" (which is also known as "iota"), where i = √(-1) (or) i² = -1.

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How to calculate the value of i? ›

Basically, “i” is the imaginary part which is also called iota. Value of i is √-1 A negative value inside a square root signifies an imaginary value. All the basic arithmetic operators are applicable to imaginary numbers.

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What is the imaginary number powers of i? ›

Imaginary Number: The imaginary number i is defined by i 2 = − 1 . Any power of i is equal to either i, -1, -i, or 1. We will use these steps, definitions, and equations to simplify the powers of i in the following two examples.

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What number is i equal to in math? ›

Learn about the imaginary unit, "i", a unique number defined as the square root of -1. It's a key part of complex numbers, which are in the form a + bi.

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How to use i in math? ›

The imaginary unit or unit imaginary number (i) is a solution to the quadratic equation x² + 1 = 0. Although there is no real number with this property, i can be used to extend the real numbers to what are called complex numbers, using addition and multiplication.

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What is the math equation for "I love you"? ›

φ^2. The I Love You formula ratio, represented by the Greek letter phi (φ), uniquely connects to love and relationships. It has wide applications in nature, mathematics and architecture. When phi is squared, the result is approximately 2.618.

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Is there a real value for i? ›

The square of the value of 'i' is equal to -1. The imaginary number is either expressed as 'i' or as 'j' also sometimes. Here, x and y are real numbers and 'i' denotes an imaginary number. Here, the value of i=√−1.

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What does 3i mean? ›

“i” is defined as the number whose square is equal to -1. Like others have mentioned, it's a complex number (which just means anything that is not real). so if you were to find a solution to x^2 + 9 = 0, the solution would be 3i because 3 squared is 9 and i squares is -1.

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What is the formula for current i? ›

What is the formula for current? The formula for electric current is I=V/R. I stand for current, V stands for voltage, and R stands for resistance.

How to simplify i in math? ›

Simplifying Powers of i Lesson

We should note the first few powers of i: i 0 = 1 i 1 = i i 2 = − 1 i 3 = i 2 ⋅ i = − 1 ⋅ i = − i i 4 = i 2 ⋅ i 2 = − 1 ⋅ − 1 = 1 If we are trying to simplify and our whole-number exponent on i is 4 or less, we can use the rules above.

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What is the rule of i? ›

Therefore, the rules for some imaginary numbers are: i = √-1. i² = -1. i³ = -i. i⁴ = +1.

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What is the imaginary number rule? ›

Some of the important rules of Imaginary numbers are, Imaginary numbers always exist in conjugate pairs i.e. for example if the complex number a + ib exists then its conjugate pair a – ib also exists. Associating imaginary numbers with real values is impossible.

How much is i in math? ›

The square root of minus one √(−1) is the "unit" Imaginary Number, the equivalent of 1 for Real Numbers. In mathematics the symbol for √(−1) is i for imaginary.

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Why does i exist in math? ›

The answer is simple. The imaginary unit ‍ allows us to find solutions to many equations that do not have real number solutions. This may seem weird, but it is actually very common for equations to be unsolvable in one number system but solvable in another, more general number system.

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What is the i pattern in math? ›

We observe that the pattern of powers of i is cyclical, repeating every 4 exponents. When the exponent is an integer multiple of 4, the result is a 1. Exponents which are one more than a multiple of 4 give a result of i, and so on.

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What is the formula for imaginary part? ›

The imaginary part is the multiple of i. It is common practice to use the letter z to stand for a complex number and write z = a + bi where a is the real part and b is the imaginary part. where a is the real part and b is the imaginary part.

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What is the symbol for imaginary unit i? ›

Imaginary numbers become particularly useful in advanced calculus. Usually denoted by the symbol i, imaginary numbers are denoted by the symbol j in electronics (because i already denotes "current"). Imaginary numbers are particularly applicable in electricity, specifically alternating current (AC) electronics.

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What is the formula for i statements? ›

The basic formula for an "I" statement is: I feel _____ when you _____. Why you feel a certain way and what you would like the person to do differently can also be included. The expanded formula is: I feel _____ when you _____ because _____. Please _____.

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What is the formula for iota? ›

The value of iota, denoted as i, is √-1. The value of the imaginary unit number i exists, when there is a negative number inside the square root, such that a unit imaginary number is equal to the root of -1. Therefore, the square of the imaginary unit is equal to -1 and its cube is equal to the value, – i.