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Objectives

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Complex Numbers Objectives Students will learn: Basic Concepts of Complex Numbers Operations on Complex Numbers Ex 5c. showed that The numbers differ only in the ... – PowerPoint PPT presentation

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Title: Objectives


1
Complex Numbers
  • Objectives
  • Students will learn

Basic Concepts of Complex Numbers Operations on
Complex Numbers
2
Basic Concepts of Complex Numbers
  • There are no real numbers for the solution of the
    equation

To extend the real number system to include such
numbers as,
the number i is defined to have the following
property
3
Basic Concepts of Complex Numbers
  • So

The number i is called the imaginary
unit. Numbers of the form a bi, where a and b
are real numbers are called complex numbers. In
this complex number, a is the real part and b is
the imaginary part.
4
Nonreal complex numbers a bi, b ? 0
Complex numbers a bi, a and b real
Irrational numbers
Real numbers a bi, b 0
Integers
Rational numbers
Non-integers
5
Basic Concepts of Complex Numbers
  • Two complex numbers are equal provided that their
    real parts are equal and their imaginary parts
    are equal

if and only if
and
6
Basic Concepts of Complex Numbers
  • For complex number a bi, if b 0, then
  • a bi a
  • So, the set of real numbers is a subset of
    complex numbers.

7
Basic Concepts of Complex Numbers
  • If a 0 and b ? 0, the complex number is pure
    imaginary.
  • A pure imaginary number or a number, like 7 2i
    with a ? 0 and b ? 0, is a nonreal complex
    number.
  • The form a bi (or a ib) is called standard
    form.

8
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9
Example 1
  • WRITING AS

Write as the product of a real number and i,
using the definition of
a.
Solution
10
Example 1
  • WRITING AS

Write as the product of a real number and i,
using the definition of
b.
Solution
11
Example 1
  • WRITING AS

Write as the product of a real number and i,
using the definition of
c.
Solution
Product rule for radicals
12
Operations on Complex Numbers
  • Products or quotients with negative radicands are
    simplified by first rewriting
  • for a positive number.

Then the properties of real numbers are applied,
together with the fact that
13
Operations on Complex Numbers
Caution When working with negative
radicands, use the definition before using
any of the other rules for radicands.
14
Operations on Complex Numbers
Caution In particular, the rule is
valid only when c and d are not both negative.
while
so
15
Example 2
  • FINDING PRODUCTS AND QUOTIENTS INVOLVING NEGATIVE
    RADICALS

Multiply or divide, as indicated. Simplify each
answer.
a.
Solution
First write all square roots in terms of i.
i 2 -1
16
Example 2
  • FINDING PRODUCTS AND QUOTIENTS INVOLVING NEGATIVE
    RADICALS

Multiply or divide, as indicated. Simplify each
answer.
b.
Solution
17
Example 2
  • FINDING PRODUCTS AND QUOTIENTS INVOLVING NEGATIVE
    RADICALS

Multiply or divide, as indicated. Simplify each
answer.
c.
Solution
Quotient rule for radicals
18
Example 3
  • SIMPLIFYING A QUOTIENT INVOLVING A NEGATIVE
    RADICAND

Write
in standard form a bi.
Solution
19
Example 3
  • SIMPLIFYING A QUOTIENT INVOLVING A NEGATIVE
    RADICAND

Write
in standard form a bi.
Solution
Be sure to factor before simplifying
Factor.
Lowest terms
20
For complex numbers a bi and c di,
and
21
Example 4
  • ADDING AND SUBTRACTING COMPLEX NUMBERS

Find each sum or difference.
a.
Add imaginary parts.
Add real parts.
Solution
Commutative, associative, distributive properties
22
Example 4
  • ADDING AND SUBTRACTING COMPLEX NUMBERS

Find each sum or difference.
b.
Solution
23
Example 4
  • ADDING AND SUBTRACTING COMPLEX NUMBERS

Find each sum or difference.
c.
Solution
24
Example 4
  • ADDING AND SUBTRACTING COMPLEX NUMBERS

Find each sum or difference.
d.
Solution
25
Multiplication of Complex Numbers
  • The product of two complex numbers is found by
    multiplying as if the numbers were binomials and
    using the fact that i2 1, as follows.

FOIL
Distributive property i 2 1
26
For complex numbers a bi and c di,
27
Example 5
  • MULTIPLYING COMPLEX NUMBERS

Find each product.
a.
Solution
FOIL
i2 -1
28
Example 5
  • MULTIPLYING COMPLEX NUMBERS

Find each product.
b.
Solution
Square of a binomial
Remember to add twice the product of the two
terms.
i 2 -1
29
Example 5
  • MULTIPLYING COMPLEX NUMBERS

Find each product.
c.
Solution
Product of the sum and difference of two terms
i 2 -1
Standard form
30
Simplifying Powers of i
  • Powers of i can be simplified using the facts

31
Example 6
  • SIMPLIFYING POWERS OF i

Simplify each power of i.
a.
Solution
Since i 2 1 and i 4 1, write the given
power as a product involving i 2 or i 4. For
example,
Alternatively, using i4 and i3 to rewrite i15
gives
32
Example 6
  • SIMPLIFYING POWERS OF i

Simplify each power of i.
b.
Solution
33
and so on.
34
  • Ex 5c. showed that

The numbers differ only in the sign of their
imaginary parts and are called complex
conjugates. The product of a complex number and
its conjugate is always a real number. This
product is the sum of squares of real and
imaginary parts.
35
For real numbers a and b,
36
Example 7
  • DIVIDING COMPLEX NUMBERS

Write each quotient in standard form a bi.
a.
Solution
Multiply by the complex conjugate of the
denominator in both the numerator and the
denominator.
Multiply.
37
Example 7
  • DIVIDING COMPLEX NUMBERS

Write each quotient in standard form a bi.
a.
Solution
Multiply.
i 2 -1
38
Example 7
  • DIVIDING COMPLEX NUMBERS

Write each quotient in standard form a bi.
a.
Solution
i 2 -1
39
Example 7
  • DIVIDING COMPLEX NUMBERS

Write each quotient in standard form a bi.
a.
Solution
Lowest terms standard form
40
Example 7
  • DIVIDING COMPLEX NUMBERS

Write each quotient in standard form a bi.
b.
Solution
i is the conjugate of i.
41
Example 7
  • DIVIDING COMPLEX NUMBERS

Write each quotient in standard form a bi.
b.
Solution
Standard form
i 2 -1(-1) 1
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