MATH 2030 Discrete Dynamical Systems

Final Exam     Remarks

The final exam will take place on Monday, May 4, 3:00-5:00 pm in 235 Lockett.
Follow the above link for some remarks.

Exam 2     Remarks    Answers & Statistics

Exam 1     Remarks    Answers & Statistics

Homework Assignments

4/28
 
Chapter 17, Exercises #1 - 3
Read sections 1 and 2 of Chapter 17
4/24
 
Chapter 16, Exercises #1, 3 - 6, 9
Read Chapter 16
4/22
 
Chapter 15, Exercises #1 - 6, 7bf, 8de, 9 - 11
Read Chapter 15
4/20Chapter 14, Exercises #4 - 6, 11 Due Friday 4/24
4/17Chapter 14, Exercises #4 - 9, 11
4/15
 
 
Chapter 12, Exercises #1a, 1c, 6
If F is a function and c is a constanst, show that S(cF)=SF=S(F+c)
Read Chapter 14
Due Monday 4/20
 
 
4/13
 
 
Chapter 12, Exercises #1 - 10
If F is a function and c is a constanst, show that S(cF)=SF=S(F+c)
Read Chapter 12
some will be collected
 
 
3/27Chapter 11, Exercises #1, 2, 4 will be collected on Friday 4/3
3/23
 
Chapter 11, Exercises #1 - 8
Read Chapter 11
3/20 Experiment 10.4
3/18Chapter 10, Exercises #2, 8, 17, 21 will be collected on Wednesday 3/25
3/16Chapter 10, Exercises #1 - 4, 6 - 9, 14, 17, 20 - 23 some will be collected on Monday 3/23
3/13
 
Chapter 10, Exercises #1 - 4, 6 - 9
Read Chapter 10
3/9Chapter 9, Exercises #6, 10 - 13, 18a Due Monday 3/16
3/4Chapter 9, Exercises #10 - 14
3/2
 
Chapter 9, Exercises #1 - 8
Read Chapters 8 and 9
2/18
 
 
Exercises that will be collected:
Chapter 6, Exercises #1a, 1b, 6 - 9
Chapter 7, Exercises #1, 6, 9, 13
These may be turned in on Friday 2/27
This material IS on the 2/20 exam
 
2/16Chapter 7, Exercises #1 - 7
2/13Chapter 7, Exercises #9 - 13
2/11Read Chapter 7
2/9Chapter 6, Exercises #1, 6 - 14
2/9Chapter 5, Exercises #1c, 2e, 3, 4b, 5Due Friday 2/13
2/6Read Chapter 6
2/4Chapter 5, Exercises #1c, 2e, 3, 4b, 5 - 9(some) will be collected later
2/2
 
Experiment 5.6
Mathematica template
Due Monday 2/9
1/30
 
Read Chapter 5
Chapter 5, Exercise #1
1/28Chapter 4, Exercises #1g, 2a, 4cDue Monday 2/2
1/26
 
For F(x)=|x-2|, use mathematical induction to prove that the
orbit of any positive even integer, x0=2n, is eventually periodic.
Due Monday 2/2
 
1/23
 
Read Chapters 4 and 5.
Chapter 4, Exercises #1 - 7, page 34.
1/16 Describe the orbits of F(x)=|x-1|.Due Monday 1/26
1/16 Chapter 3, Exercises #11 - 14.Due Monday 1/26
1/14Chapter 3, Exercises #1 - 10, page 26.
1/12Read Chapters 1 through 3 of the text.

Mathematica Notebooks

week 1 m2030w1.nb
week 2 cobwebs.nbgraphical analysis in maple
feb9
 
Experiment 5.6
pdf file
Experiment 6.4  
pdf file
  feb13