Difference between revisions of "Complex Numbers"

From Department of Mathematics at UTSA
Jump to navigation Jump to search
Line 1: Line 1:
A complex number is a number of the form <math> a + bi </math> where <math> a </math> is the real part of the complex number, and <math> bi </math> is the imaginary part of the complex number. If <math> b = 0 </math>, then <math> a + bi </math> is a real number. If <math> a = 0 </math> and b is not equal to 0, the complex number is called an imaginary number. The imaginary unit <math> i = \sqrt{-1}</math>, and can be used to express other imaginary numbers (for example, <math> \sqrt{-25} = 5\sqrt{-1} = 5i </math>). Note that <math> i^2 = -1 <math>, <math> i^3 = -i </math>, <math> i^4 = 1 </math>, <math> i^5 = i </math>, <math> i^6 = -1 </math>, and so on.
+
A complex number is a number of the form <math> a + bi </math> where <math> a </math> is the real part of the complex number, and <math> bi </math> is the imaginary part of the complex number. If <math> b = 0 </math>, then <math> a + bi </math> is a real number. If <math> a = 0 </math> and b is not equal to 0, the complex number is called an imaginary number. The imaginary unit <math> i = \sqrt{-1}</math>, and can be used to express other imaginary numbers (for example, <math> \sqrt{-25} = 5\sqrt{-1} = 5i </math>). Note that <math> i^2 = -1 <math>, <math> i^3 = -i </math>, <math> i^4 = 1 </math>, <math> i^5 = i </math>, <math> i^6 = -1 </math>, and so on. The "complex conjugate" of <math> a + bi </math> is <math> a - bi </math>, and <math> (a + bi)(a - bi) = a^2 + b^2 </math>, which is a real number. The complex conjugate is useful for simplifying expressions involving complex numbers (for example, see complex division below).
  
 
===Operations with Complex Numbers===
 
===Operations with Complex Numbers===

Revision as of 13:29, 20 September 2021

A complex number is a number of the form where is the real part of the complex number, and is the imaginary part of the complex number. If , then is a real number. If and b is not equal to 0, the complex number is called an imaginary number. The imaginary unit , and can be used to express other imaginary numbers (for example, ). Note that , , , , and so on. The "complex conjugate" of is , and , which is a real number. The complex conjugate is useful for simplifying expressions involving complex numbers (for example, see complex division below).

Operations with Complex Numbers

Addition: Given two complex numbers and , . For example, .

Subtraction: .

Multiplication:

Division: Division works a bit differently with complex numbers. The reciprocal of a complex number .

So, . Note that c and d cannot both be equal to 0.

Resources