**Textbook:** *Differential Equations* (second edition) by John
Polking, Albert Boggess, and David Arnold.

I find that *A First Course In Differential Equations with
Applications* (fourth edition) by Dennis G. Zill is a good source of
additional exercises.

**Instructor:** Monica Visan, 6167 Math Sciences Building.

**Office Hours:** Tu: 2:00-3:00pm, Wed: 1:00-2:00pm, and Fr:
1:30-2:30pm or by
appointment.

**Exams:**

**Midterm 1:**Wednesday, April 23rd, in class.**Midterm 2:**Wednesday, May 14th, in class.**Final:**Monday, June 9th, 3:00pm-6:00pm.

**Midterm 1:** will cover the material presented in
the first 9 lectures; see the table below. You can find a practice midterm
here.

**Midterm 2:** will cover all the material
presented up to that point, with emphasis on lectures 10 through 16; see the table
below. You can find a practice midterm here.

**Final:** will cover all the material
presented this quarter. You can find a practice final here.

**Homework:** There will be weekly homework.
It is due *in class* on Fridays. Further information is given below.

- No late homework will be accepted.
- The reader will grade three problems each out of five points.
- Up to five further points will be awarded based on the proportion of the remaining problems that are completed.
- Write your name, ID number, and TA section at the top of the first page.
- Staple your pages!
- Homework will be returned in TA section.
- The weakest homework score will be omitted.
- While you may collaborate on the homework, the final version needs to
be written in your own words. The loaning or copying of solutions is
**strictly forbidden**.

**Grading:** Homework: 10%; Midterm 1: 20%; Midterm 2: 20%; Final: 50%. No exceptions.

**Teaching Assistants:**

**Syllabus:** The following table will be updated as we progress through the course.

Lecture |
Sections |
Topics |

1 | 2.1 | First Order Differential Equations, Solutions, Initial Value Problems, Examples |

2 | 2.1 | Direction Fields, Euler's Method |

3 | 2.2, 2.4 | Separable Equations, Linear Homogeneous Equations |

4 | 2.4 | Linear Inhomogeneous Equations, x'(t) = f(t) x(t) + g(t) |

5 | 2.5 | Mixing Problems |

6 | 2.6 | Exact Differential Equations |

7 | 2.6 | Exact Differential Equations and Integrating Factors |

8 | 2.7 | Existence and Uniqueness |

9 | 2.9 | Autonomous Equations and Stability |

10 | 4.1 | Second Order Linear Equations, Existence and Uniqueness, the Wronskian |

11 | 4.1 | Fundamental Set of Solutions, Linear Independence |

12 | 4.3 | Second Order Constant Coefficient Equations |

13 | 4.3 | Higher Order Constant Coefficient Equations |

14 | 4.5 | The Method of Undetermined Coefficients |

15 | 4.5 | Undetermined Coefficients and Annihilators |

16 | 4.6 | Variation of Parameters |

17 | 9.1 | Linear Systems with Constant Coefficients: Existence and Uniqueness, Structure of the Solution Set |

18 | 9.2 | Eigenvalues and Eigenvectors, Fundamental Set of Solutions |

19 | 9.2 | 2 x 2 Systems: Distinct Real and Complex Eigenvalues |

20 | 9.2 | 2 x 2 Systems: One Real Eigenvalue of Multiplicity 2 |

21 | 9.3 | Phase Plane Portraits |

22 | 9.3 | Phase Plane Portraits |

23 | 9.4 | The Trace-Determinant Plane |

24 | 9.5 | Higher-Dimensional Systems |

25 | 9.6 | The Exponential of a Matrix |

26 | 9.6 | Continuation |

**Homework Problems:**

- Homework 1 due in class on Friday, April 4th.
- Homework 2 due in class on Friday, April 11th.
- Homework 3 due in class on Friday, April 18th.
- Homework 4 due in class on Friday, April 25th.
- Homework 5 due in class on Friday, May 2nd.
- Homework 6 due in class on Friday, May 9th.
- Homework 7 due in class on Friday, May 16th.
- Homework 8 due in class on Friday, May 23rd.
- Homework 9 due in class on Friday, May 30th.
- Homework 10 you do not have to turn this in.