1549312215-Complex_Analysis_for_Mathematics_and_Engineering_5th_edition__Mathews

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140 CHAPTER 4 • SEQUENCES, JULIA AND MANDELBROT SETS, AND POWER SERIES


(c) Use induction to show that if all the terms of the sequence {zk} are
defined, then the sequence {z•} is real, provided zo is real.
(d) Discuss whether {zk} converges to i if Im(zo) > 0 and to - i if
Im(zo) < 0.


  1. Formulate and solve problems a nalogous to those in Exercise 1 for the function


l(z) = z^2 -l.


  1. P rove that Newton's method always works for polynomials of degree 1 (functions
    of the form I (z) = az+b, where a f. 0). How many iterations are necessary before
    Newton's method produces the solut ion z = -~ to I (z) = O?

  2. Consider the function lo (z) = z^2 and an initial point zo. Let {zk} be the sequence


of iterates of zo generated by lo· That is, z 1 =lo (zo), z2 =lo (z1), and so on.

(a) Show that if lzol < l, the sequence {zk} converges to O.
(b) Show that if lzol > 1, t he sequence {zk} is unbounded.
(c) Show that if lzol = 1, the sequence {zk} either converges to 1 or oscil-
lates around the unit circle. Give a simple criterion that you can apply
to z 0 that will reveal which of these two paths { Zk} takes.


  1. Show that the Julia set for l - 2 (z) is connected.

  2. Determine the precise structure of the set K-2·

  3. Prove that if z = c is in the Mandelbrot set, then its conjugate c is also in the
    Mandelbrot set. Thus, the Mandelbrot set is symmetric about the z -axis. Hint:
    Use mathematical induction.


8. Show that if c is any real number greater than i, then c is not in t he Mandelbrot

set. Note: Combining this condition with Example 4.11 shows that the cusp in

the cardioid section of the Mandelbrot set occurs precisely at c = i.

9. Find a value for c that is in the Mandelbrot set such that its negative, -c, is not
in the Mandelbrot set.


  1. Show that the points c that solve the inequalities of T heorem 4.11 form a cardioid.
    This cardioid is the main body of the Mandelbrot set shown in color plate 6. Hint:
    It may be helpful to write the inequalities of T heorem 4.11 as


11. Use Theorem 4.11 and the paragraph immediately before it to show that the point


  • ~ J3i belongs to the Mandelbrot set.



  1. Suppose that {zo, z1} is a 2-cycle for f.


(a) Show that if zo is attracting for 92 (z), then so is the point z1. Hint:

Differentiate 92 (z) = I(! (z)), using the chain rule, and show that

9Hzo) = 92(z1).
(b) Generalize part (a) ton-cycles.


  1. Prove that k-oo lim Zk = zo in Theorem 4.10.

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