授業の目的 【日本語】 Goals of the Course(JPN) | | |
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授業の目的 【英語】 Goals of the Course | | Students taking Mathematical Physics I should also take this tutorial class. This course introduces first-order and second-order ordinary differential equations and their solution methods. Students will master exact and approximate analytical techniques for initial value problems that arise in physics, engineering and chemistry. Questions of existence, uniqueness and convergence will also be discussed. Fourier series follow naturally from the second-order theory and these are investigated, too.
Students will master exact and approximate analytical techniques for initial value problems, Fourier series, and Laplace transform that arise in physics, engineering and chemistry. |
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到達目標 【日本語】 Objectives of the Course(JPN)) | | |
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到達目標 【英語】 Objectives of the Course | | Students taking Mathematical Physics I should also take this tutorial class. This course introduces first-order and second-order ordinary differential equations and their solution methods. Students will master exact and approximate analytical techniques for initial value problems that arise in physics, engineering and chemistry. Questions of existence, uniqueness and convergence will also be discussed. Fourier series follow naturally from the second-order theory and these are investigated, too.
Students will master exact and approximate analytical techniques for initial value problems, Fourier series, and Laplace transform that arise in physics, engineering and chemistry. |
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バックグラウンドとなる科目【日本語】 Prerequisite Subjects | | |
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バックグラウンドとなる科目【英語】 Prerequisite Subjects | | Calculus I, Calculus II, Linear Algebra I, Linear Algebra II;or Consent of Instructor |
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授業の内容【日本語】 Course Content | | |
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授業の内容【英語】 Course Content | | • First order ordinary differential equation (ODE) initial value problems. Integration factor; separable equations;
systems of ODEs (Hamiltonian systems); phase plane, flow. Uniqueness and existence theorems. Some differences
between linear and nonlinear ODEs.
• Second order linear ODE initial value problems. Homogeneous solution. Proving linear independence (Wronskian).
Method of Undetermined Coefficients; Variation of Parameters. Series solutions: ordinary point, regular singular
point; convergence tests; Method of Frobenius. Examples from physics, engineering and chemistry.
• Fourier series. Dirichlet conditions. Role of symmetry. Gibbs phenomenon. Effect of jump discontinuity on speed of
convergence. Integration and differentiation of Fourier series.
• Fourier transform, convolution, Dirac delta function. Laplace transform. |
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成績評価の方法と基準【日本語】 Course Evaluation Method and Criteria | | |
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成績評価の方法と基準【英語】 Course Evaluation Method and Criteria | | Tutorial performance: 30%, Homework score: 60%, Tutorial attendance: 10%.
The “Absent/W” grade is reserved for students who withdraw by November 30.
After that day, grade (A+ to F) will be awarded based on marks earned from all assessments during the semester. |
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履修条件・注意事項【日本語】 Course Prerequisites / Notes | | |
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履修条件・注意事項【英語】 Course Prerequisites / Notes | | |
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教科書【日本語】 Textbook | | |
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教科書【英語】 Textbook | | |
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参考書【日本語】 Reference Book | | |
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参考書【英語】 Reference Book | | 1. Boas M.L., 2006, Mathematical Methods in the Physical Sciences, 3rd ed., John Wiley & Sons.
2. Strang, G., Introduction to Linear Algebra, 4th Edition, Chapter 6.
3. Arfken G.B. & Weber H.J., 2005, Mathematical Methods for Physicists, 6th ed., Elsevier Academic Press. (Copies are available in the library.) |
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授業時間外学習の指示【日本語】 Self-directed Learning Outside Course Hours | | |
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授業時間外学習の指示【英語】 Self-directed Learning Outside Course Hours | | |
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使用言語【英語】 Language used | | |
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使用言語【日本語】 Language used | | |
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授業開講形態等【日本語】 Lecture format, etc. | | |
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授業開講形態等【英語】 Lecture format, etc. | | |
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遠隔授業(オンデマンド型)で行う場合の追加措置【日本語】 Additional measures for remote class (on-demand class) | | |
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遠隔授業(オンデマンド型)で行う場合の追加措置【英語】 Additional measures for remote class (on-demand class) | | |
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