Complex Numbers Chapter 3 - PowerPoint PPT Presentation

1 / 15
About This Presentation
Title:

Complex Numbers Chapter 3

Description:

... Argand diagram. Modulus (easy) and argument (often wrong) Complex Numbers. Loci in the Argand diagram ... On the Argand diagram: roots lie on a circle, radius ... – PowerPoint PPT presentation

Number of Views:291
Avg rating:3.0/5.0
Slides: 16
Provided by: Andrew742
Category:

less

Transcript and Presenter's Notes

Title: Complex Numbers Chapter 3


1
Complex Numbers (Chapter 3)
  • Ideas from Further Pure 1
  • What complex numbers are
  • The idea of real and imaginary parts
  • if z 4 5j, Re(z) 4, Im(z) 5
  • How to add, subtract, multiply and (especially)
    divide complex numbers
  • The Argand diagram
  • Modulus (easy) and argument (often wrong)

2
Complex Numbers
  • Loci in the Argand diagram
  • E.g.

z is closer (or as close) to 2 than to -2j
the direction from 2 to z is p/4 a half-line
  • Equations a polynomial equation of degree n has
    precisely n (real or complex) roots (some may be
    repeats)
  • The complex roots of polynomial equations with
    real coefficients occur in conjugate pairs

3
De Moivres theorem
  • Polar form if z x yj has modulus r and
    argument ?,
  • Multiplication and division

and
and
may need to add or subtract 2p to give principal
argument p lt ? p
4
De Moivres theorem
  • As a consequence of these two,

IN F.BOOK
Uses of de Moivres theorem 1. cos n? and sin n?
in terms of powers
by de M
useful abbreviation
by Binomial
  • Then equate real and imaginary parts
  • May need to use

5
De Moivres theorem
  • 2. cosn? and sinn? in terms of multiple angles

?
?
and
KNOW
?
?
and
KNOW
6
De Moivres theorem
  • Example
  • Express cos3? in terms of cos 3? and cos ?

do this right!
dont forget 2s
?
use integration
7
Complex exponents
  • Use Summing series
  • Example

Call this C, define S
Then C jS
This is a G.P. with a 1, r
which we have to simplify to find C
Sum to infinity
8
Complex exponents
is
  • Complex conjugate of

C jS
Now
so C jS
C is the real part C
9
Complex roots
  • We want to find the nth roots of a complex number
    w
  • Suppose

Then
  • On the Argand diagram
  • roots lie on a circle, radius
  • they are separated by 2p/n so form an n-sided
    polygon inscribed in the circle

10
Complex roots
  • Example Find the cube roots of 8 8j

Cube roots have modulus
Arguments
so principal arguments are
so roots are
11
Complex loci
  • There is one more technique in FP2

The vector from 2 to z is p/4 ahead of the vector
from -5 to z
so locus is arc of circle, endpoints -5 and 2
12
Questions Winter 06
13
Examiners Report
  • (i) Found difficult! Modulus much better than
    argument
  • (ii) This was done well, but sometimes proofs
    lacked sufficient detail
  • (iii) Not done well some candidates appeared not
    to have been taught this
  • Link with part (ii) not recognised
  • Some had sums to n terms but went on to let n
    tend to infinity

14
Questions Summer 06
15
Examiners Report
  • (a) (i) Most could write this down
  • (ii) This exact question is in the book!
  • A lot got tangled up, or left out the powers
    of 2
  • (b) (i) Little trouble
  • (ii) Efficiently done, although some gave
    arguments outside the range
  • (iii) Many did not see connection with (ii)
  • and started again
Write a Comment
User Comments (0)
About PowerShow.com