V0410400
2 Calculus with Differential Equations
You will learn what a differential equation is and how to recognize some of the basic different types. You will learn how
to apply some common techniques used to obtain general solutions of differential equations and how to fit initial or boundary
conditions to obtain a unique solution. You will appreciate how differential equations arise in applications and you will
gain some experience in applying your knowledge to model a number of engineering problems using differential equations.
The purpose of this class is to learn how to recognize some of the basic different types of differential equations, to learn
how to apply some common techniques used to obtain solutions of differential equations and to appreciate how differential
equations arise in applications. This class also includes a review on the content learned in the class of differential equations
at the time of first grade.
- You can describe how to recognize some of the basic different types of differential equations
- You can describe how to apply some common techniques used to obtain solutions of differential equations
- You can describe how differential equations arise in applications
Relationship between 'Goals and Objectives' and 'Course Outcomes'
|
Mid-term exam |
Final exam |
Total. |
1. |
20% |
20% |
40% |
2. |
20% |
20% |
40% |
3. |
10% |
10% |
20% |
Total. |
50% |
50% |
- |
|
Class schedule |
HW assignments (Including preparation and review of the class.) |
Amount of Time Required |
1. |
Orientation, Case study of modelling |
Exercises for the models |
190minutes |
2. |
General solution |
Review general solutions |
190minutes |
3. |
Method of separation of variables |
Applying the method of separation of variables |
190minutes |
4. |
Inverse function |
Review inverse functions |
190minutes |
5. |
Exact equation |
Solving exact equations |
190minutes |
6. |
Finding the Integrating factor |
Solving equations via integrating factors |
190minutes |
7. |
Bernoulli differential equation |
Review Bernoulli differential equations |
190minutes |
8. |
Mid-term exam and review |
Review Sessions 1-7 |
190minutes |
9. |
2nd order constant coefficient equations |
Finding complementary functions |
190minutes |
10. |
2nd order constant coefficient equations: exercise |
Finding complementary functions |
190minutes |
11. |
Particular integral |
Finding particular integrals |
190minutes |
12. |
General solution of inhomogeneous case |
Finding general solutions |
190minutes |
13. |
Applications |
Exercises for the models |
190minutes |
14. |
Final exam and review |
Review Sessions 9-13 |
190minutes |
Total. |
- |
- |
2660minutes |
Evaluation method and criteria
Mid-term exam and Final exam. As a criterion, if you determine that you understand 60% of the content covered in the class,
your final score will be 60 points.
Feedback on exams, assignments, etc.
ways of feedback |
specific contents about "Other" |
The Others |
Provide feedback in class or via ScombZ/email, etc. |
Textbooks and reference materials
No textbook
References (English in mathematics for Japanese students)
原田なをみ・D.Croydon(監修)、服部久美子(著)「数学のための英語教本」(共立出版)
銀林浩、銀林純「数・数式と図形の英語」(日興企画)
Basic knowledge of calculus is required
Office hours and How to contact professors for questions
- Lunchtime on every Tuesday.
Non-regionally-oriented course
Development of social and professional independence
- Course that cultivates an ability for utilizing knowledge
More than one class is interactive
Course by professor with work experience
Work experience |
Work experience and relevance to the course content if applicable |
N/A |
N/A |
Education related SDGs:the Sustainable Development Goals
- 4.QUALITY EDUCATION
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Tue Sep 17 18:18:48 JST 2024