CDS 140, Winter 2016
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<font color='blue' size='+2'>Introduction to Dynamics</font>__NOTOC__  <font color='blue' size='+2'>Introduction to Dynamics</font>__NOTOC__  
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Perko, 1.11.10<br>  Perko, 1.11.10<br>  
−   [[CDS 140a Winter 2016 Homework 1HW 1]] <br> Due: 13 Jan (Wed)  +   [http://www.cds.caltech.edu/~macmardg/courses/cds140/wi16/hw1wi16.pdf hw1wi16.pdf][[CDS 140a Winter 2016 Homework 1HW 1]] <br> Due: 13 Jan (Wed) 
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Revision as of 23:47, 31 December 2015
Introduction to Dynamics (Page currently under construction, not up to date beyond week 1)  
Instructors

Teaching Assistants

Course Description
Analytical methods for the formulation and solution of initial value problems for ordinary differential equations. Basics in topics in dynamical systems in Euclidean space, including equilibria, stability, phase diagrams, Lyapunov functions, periodic solutions, PoincaréBendixon theory, Poincaré maps. Introduction to simple bifurcations, including Hopf bifurcations, invariant and center manifolds.
Lecture Schedule
Date  Topic  Reading  Homework 
4 Jan 6 Jan 
Linear Differential Equations

Perko, 1.11.10 
hw1wi16.pdfHW 1 Due: 13 Jan (Wed) 
11 Jan 13 Jan 
Nonlinear differential equations

Perko, 2.12.6  HW 2 Due: 20 Jan (Wed) 
20 Jan 22 Jan 
Behavior of differential equations

Perko, 2.72.10  HW 3 Due: 27 Jan (Wed) 
25 Jan TBD Jan 
Nonhyperbolic differential equations

Perko, 2.112.13  HW 4 Due: 3 Feb (Wed) 
4 Feb 6 Feb 
Global behavior

Perko, 3.13.3  HW 5 Due: 10 Feb (Wed) 
9 Feb 11 Feb 
Limit cycles

Perko, 3.43.5, 3.7  HW 6 Due: 17 Feb (Wed) 
18 Feb 20 Feb 
Bifurcations

Perko 4.14.2 
HW 7 Due: 24 Feb (Wed) 
23 Feb 25 Feb? 27 Feb? 
Bifurcations

Perko 4.34.5 + notes  HW 8 Due: 2 Mar (Wed) 
2 Mar 6 Mar 
Nonlinear control systems  Template:Obc08, Chapter 1  OBC 1.3, 1.4ab, 1.5 Due: 9 Mar (Wed) 
9 Mar 
Course review  Final exam Due: 18 Mar (Wed). Pick up from Nikki Fountleroy, 107 Steele Lab 
Textbook
The primary text for the course (available via the online bookstore) is
[Perko]  L. Perko, Differential Equations and Dynamical Systems, Third Edition. Springer, 2006. 
The following additional texts may be useful for some students:
[G&H]  J. Guckenheimer and P. Holmes, Nonlinear oscillations, dynamical systems, and bifurcations of vector fields. SpringerVerlag, 1990. 
[H&S]  M. Hirsch and S. Smale, Differential Equations, Dynamical Systems, and Linear Algebra. SpringerVerlag, 1990. 
[J&S]  D. Jordan and P. Smith, Nonlinear Ordinary Differential Equations: An Introduction for Scientists and Engineers, Fourth Edition. Oxford University Press, 2007. (On reserve in SFL) 
[Ver]  F. Verhulst, Nonlinear Differential Equations and Dynamical Systems, Second Edition. Springer, 2006. (On reserve in SFL) 
Grading
The ﬁnal grade will be based on homework and a ﬁnal exam:
 Homework (75%)  There will be 9 oneweek problem sets, due in class approximately one week after they are assigned. Late homework will not be accepted without prior permission from the instructor.
 Final exam (25%)  The ﬁnal will be handed out the last day of class and is due back at the end of ﬁnals week. Open book, time limit to be decided (likely N hours over a 48N hour period).
The lowest homework score you receive will be dropped in computing your homework average. In addition, if your score on the ﬁnal is higher than the weighted average of your homework and ﬁnal, your ﬁnal will be used to determine your course grade.
Collaboration Policy
Collaboration on homework assignments is encouraged. You may consult outside reference materials, other students, the TA, or the instructor. Use of solutions from previous years in the course or from other external sources is not allowed. All solutions that are handed should reﬂect your understanding of the subject matter at the time of writing.
You can use MATLAB, Mathematica or a similar programs, but you must show the steps that would be required to obtain your answers by hand (to make sure you understand the techniques).
No collaboration is allowed on the ﬁnal exam. You will also not be allowed to use computers, but the problems should be such that extensive computation is not required.