Manipulate%20real%20and%20complex%20numbers%20and%20solve%20equations - PowerPoint PPT Presentation

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Manipulate%20real%20and%20complex%20numbers%20and%20solve%20equations

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Title: Complex numbers Author: MAGS Last modified by: Joanna McHardy Created Date: 7/5/2004 10:41:06 AM Document presentation format: On-screen Show (4:3) – PowerPoint PPT presentation

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Title: Manipulate%20real%20and%20complex%20numbers%20and%20solve%20equations


1
Manipulate real and complex numbers and solve
equations
  • AS 91577

2
Worksheet 1
3
Quadratics
General formula
General solution
4
Example 1
Equation cannot be factorised.
5
Using quadratic formula
We use the substitution
A complex number
6
The equation has 2 complex solutions
Imaginary
Real
7
Equation has 2 complex solutions.
8
Example 2
9
Example 2
10
Example 2
11
Adding complex numbers
Subtracting complex numbers
12
Example
13
Example
14
(x  yi)(u  vi) (xu  yv)  (xv  yu)i.
Multiplying Complex Numbers
15
Example
16
Example
17
Example 2
18
Conjugate
If
The conjugate of z is
If
The conjugate of z is
19
Dividing Complex Numbers
20
Example
21
Example
22
Example
23
Solving by matching terms
Match real and imaginary Real Imaginary
24
Solving polynomials
Quadratics 2 solutions
2 real roots
2 complex roots
25
If coefficients are all real, imaginary roots are
in conjugate pairs
26
If coefficients are all real, imaginary roots are
in conjugate pairs
27
Cubic
Cubics 3 solutions
3 real roots
1 real and 2 complex roots
28
Quartic
Quartic 4 solutions
2 real and 2 imaginary roots
4 real roots
4 imaginary roots
29
Solving a cubic
This cubic must have at least 1 real solutions
Form the quadratic.
Solve the quadratic for the other solutions
x 1, -1 - i, 1 i
30
Finding other solutions when you are given one
solution.
Because coefficients are real, roots come in
conjugate pairs so
Form the quadratic i.e.
Form the cubic
31
Argand Diagram
32
Just mark the spot with a cross
33
Plot z 3 i
z
34
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35
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36
z i
z 1
z -1
z -i
37
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38
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39
Multiplying a complex number by a real
number.(x  yi) u xu  yu i.
40
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41
Multiplying a complex number by i.z i
(x  yi) i y  xi.
42
Reciprocal of z
Conjugate
43
Rectangular to polar form
Using Pythagoras Modulus is the length
Argument is the angle
Check the quadrant of the complex number
44
Modulus is the length
45
Example 1
Rectangular form
Polar form
46
Example 2
47
Example 3
48
Converting from polar to rectangular
49
Multiplying numbers in polar form
Example 1
50
Multiplying numbers in polar form
Example 2
Take out multiples of
51
Remove all multiples of
52
De Moivres Theorem
Example 1
53
De Moivres Theorem
Example 2
Take out multiples of
54
Solving equations using De Moivres Theorem
1. Put into polar form
2. Add in multiples of
4th root 81
3. Fourth root
4. Generate solutions Letting n 0, 1, 2, 3
Divide angle by 4
55
Take note
56
Useful websites
Good general level http//www.clarku.edu/djoyce/c
omplex/ Advanced level http//mathworld.wolfram.c
om/ComplexNumber.html Good general
level http//www.purplemath.com/modules/complex.ht
m Good general level- Also gives
proofs http//www.sosmath.com/complex/complex.html
Problems at 3 levels http//www.ping.be/ping133
9/Pcomplex.htmREAD-THIS-FIRST
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