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Transcript 
Section 2.4
•
Complex Numbers
41
Name______________________________________________
Section 2.4 Complex Numbers
Objective: In this lesson you learned how to perform operations with
complex numbers.
Important Vocabulary
Define each term or concept.
Complex number If a and b are real numbers, the number a + bi, where the number
a is called the real part and the number bi is called the imaginary part, is a complex
number written in standard form.
Imaginary number If b ≠ 0, the number a + bi is called an imaginary number.
Complex conjugates A pair of complex numbers of the form a + bi and a – bi.
I. The Imaginary Unit i (Page 162)
Mathematicians created an expanded system of numbers using
√−1
the imaginary unit i, defined as i =
, because . . .
What you should learn
How to use the imaginary
unit i to write complex
numbers
there is no real number x that can be squared to produce − 1.
By definition, i2 =
−1
.
If a and b are real numbers, then the complex number a + bi is
said to be written in
standard form
number a + bi = a is a(n)
number a + bi is a(n)
real number
. If b ≠ 0, the
.If a = 0,
imaginary number
the number a + bi = bi, where b ≠ 0 , is a(n)
number
. If b = 0, the
pure imaginary
.
The set of complex numbers consists of the set of
numbers
and the set of
real
imaginary numbers
.
Two complex numbers a + bi and c + di, written in standard
form, are equal to each other if . . .
and only if a = c and b = d.
II. Operations with Complex Numbers (Pages 163−164)
To add two complex numbers, . . .
add the real parts and the
imaginary parts of the numbers separately.
Larson/Hostetler Precalculus/Precalculus with Limits Notetaking Guide IAE
Copyright © Houghton Mifflin Company. All rights reserved.
What you should learn
How to add, subtract, and
multiply complex
numbers
42
Chapter 2
•
Polynomial and Rational Functions
To subtract two complex numbers, . . .
subtract the real parts
and the imaginary parts of the numbers separately.
The additive identity in the complex number system is
0
.
The additive inverse of the complex number a + bi is
− (a + bi) = − a − bi
.
Example 1: Perform the operations:
(5 − 6i) − (3 − 2i) + 4i
2
To multiply two complex numbers a + bi and c + di, . . .
use
the multiplication rule (ac − bd) + (ad + bc)i or use the
Distributive Property to multiply the two complex numbers,
similar to using the FOIL method for multiplying two binomials.
Example 2: Multiply: (5 − 6i)(3 − 2i)
3 − 28i
III. Complex Conjugates (Page 165)
What you should learn
How to use complex
conjugates to write the
quotient of two complex
numbers in standard form
The product of a pair of complex conjugates is a(n)
real
number.
To write the quotient of the complex numbers a + bi and c + di
in standard form, where c and d are not both zero, . . .
multiply the numerator and denominator by the complex
conjugate of the denominator.
Example 3: Divide (1 + i) by (2 − i). Write the result in
standard form.
1/5 + 3/5i
IV. Complex Solutions of Quadratic Equations (Page 166)
If a is a positive number, the principal square root of the negative
number − a is defined as
√−a =√a i
.
What you should learn
How to find complex
solutions of quadratic
equations
Larson/Hostetler Precalculus/Precalculus with Limits Notetaking Guide IAE
Copyright © Houghton Mifflin Company. All rights reserved.
•
Section 2.4
Complex Numbers
Name______________________________________________
To avoid problems with square roots of negative numbers, be sure to
convert complex numbers to
before
standard form
multiplying.
Example 4: Perform the operation and write the result in
standard form: (5 − − 4 ) 2
21 − 20i
Additional notes
y
-5
-3
y
y
5
5
5
3
3
3
1
1
1
-1-1
1
3
5
x
-5
-3
-1-1
1
3
5
x
-5
-3
-1-1
-3
-3
-3
-5
-5
-5
Larson/Hostetler Precalculus/Precalculus with Limits Notetaking Guide IAE
Copyright © Houghton Mifflin Company. All rights reserved.
1
3
5
x
43
44
•
Chapter 2
Polynomial and Rational Functions
Additional notes
y
-5
-3
y
y
5
5
5
3
3
3
1
1
1
-1-1
1
3
5
x
-5
-3
-1-1
1
3
5
x
-5
-3
-1-1
-3
-3
-3
-5
-5
-5
1
3
5
x
Homework Assignment
Page(s)
Exercises
Larson/Hostetler Precalculus/Precalculus with Limits Notetaking Guide IAE
Copyright © Houghton Mifflin Company. All rights reserved.
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