Introduction to Complex Numbers
Introduction to Complex Numbers
For a long time in mathematics, it was believed that you couldn't take the square root of a negative number. Complex numbers were introduced to solve this exact problem.
The Imaginary Unit
The foundation of complex numbers is the imaginary unit, denoted by i. It is defined as the square root of โ1:
i=โ1โ
Because of this definition, squaring i gives us โ1:
i2=โ1
The Standard Form: a+bi
A complex number is any number that can be written in the form a+bi, where:
- a is the real part.
- b is the imaginary part.
- Both a and b are real numbers.
For example, in the complex number 3+2i, the real part is 3 and the imaginary part is 2.
Operations with Complex Numbers
You can perform standard arithmetic operations with complex numbers just like you do with polynomials, keeping in mind that i2=โ1.
Addition and Subtraction
To add or subtract complex numbers, simply combine the real parts together and the imaginary parts together.
Example: (4+3i)+(2โi)=(4+2)+(3iโi)=6+2i
Multiplication
To multiply complex numbers, use the distributive property (or FOIL method), and remember to replace any i2 with โ1.
Example: Simplify (3+2i)(4โ5i)
(3+2i)(4โ5i)=12โ15i+8iโ10i2 =12โ7iโ10(โ1) =12โ7i+10 =22โ7i
Division
To divide complex numbers, you need to eliminate i from the denominator. You do this by multiplying both the numerator and the denominator by the complex conjugate of the denominator. The conjugate of a+bi is aโbi.
Example: Find the quotient 1โi2+3iโ
The complex conjugate of the denominator 1โi is 1+i. Multiply the top and bottom by 1+i:
1โi2+3iโโ 1+i1+iโ=(1โi)(1+i)(2+3i)(1+i)โ
Expand the numerator and the denominator:
- Numerator: 2(1)+2(i)+3i(1)+3i(i)=2+2i+3i+3i2=2+5i+3(โ1)=โ1+5i
- Denominator: 1(1)+1(i)โi(1)โi(i)=1โi2=1โ(โ1)=2
Put them back together:
2โ1+5iโ=โ21โ+25โi