11320 工程數學二

# Required Courses # Undergraduate Program
8 Lectures / 24 Sections / 12h 7m 36s
Lecture 1:Course Introduction
Section 1
14:15
Lecture 2:Vector Calculus
Section 1
40:12
Section 2
19:32
Section 3
25:30
Section 4
46:31
Section 5
03:30
Section 6
43:13
Section 7
31:59
Section 8
21:48
Section 9
21:52
Section 10
30:04
Section 11
44:16
Section 12
52:56
Section 13
52:28
Section 14
34:04
Section 15
31:48
Section 16
10:00
Section 17
45:05
Lecture 3:Fourier Analysis
Section 1
10:16
Section 2
53:43
Section 3
33:41
Section 4
11:36
Section 5
31:18
Section 6
17:59
Lecture 4:
Lecture 5:
Lecture 6:
Lecture 7:
Lecture 8:
Introduction
Duration| 12h 7m 36s
Total Lectures| 8 Lectures 24 Sections

Brief Description
Mathematical tools are essential in analysis and prediction for a wide range of engineering problems. Engineering mathematics is a post-calculus course for undergraduate students. It extends the discussion to various types of differential equations and advanced topics. Through class lectures, homework assignments, and exams, you will acquire the knowledge on some but not all the equations with engineering interest and be ready to utilize it in engineering problems such as fluid mechanics, solid mechanics, control theory, etc. Furthermore, you should have a good grasp of the physical meaning behind the math and be able to interpret the solution. This is a two-semester series.

Course keywords
vector calculus, Fourier analysis, partial differential equations, complex analysis

Textbook 
Kreyszig, "Advanced Engineering Mathematics", abridged version 10th ed., John Wiley (2018)

Syllabus 
1. Vector calculus 
2. Fourier series and integral 
3. Fourier transform
4. Sturm-Liouville problem 
5. Partial differential equations 
6. Complex analysis

Lectures
Lecture 1:Course Introduction
Section 1 - Course Information
14:15
Lecture 2:Vector Calculus
Section 1 - Vector Functions (1)
40:12
Section 2 - Vector Functions (2)
19:32
Section 3 - Curve in 3D Space
25:30
Section 4 - Example of 3D curve
46:31
Section 5 - Differential Operators: Intro
03:30
Section 6 - Differential Operators: Gradient
43:13
Section 7 - Differential Operators: Divergence
31:59
Section 8 - Differential Operators: Curl
21:48
Section 9 - Differential Operators: Curl (2)
21:52
Section 10 - Line Integrals
30:04
Section 11 - Line Integrals: Path Independence
44:16
Section 12 - Green's Theorem
52:56
Section 13 - Surface Integrals
52:28
Section 14 - Flux Integrals
34:04
Section 15 - Gauss' Divergence Theorem
31:48
Section 16 - Stokes Theorem
10:00
Section 17 - Stokes Theorem (2)
45:05
Lecture 3:Fourier Analysis
Section 1 - Introduction
10:16
Section 2 - Function space, orthogonal basis
53:43
Section 3 - Function space, orthogonal basis (2)
33:41
Section 4 - Convergence of Fourier Series
11:36
Section 5 - Example
31:18
Section 6 - Even and Odd Function
17:59
Lecture 4:
Lecture 5:
Lecture 6:
Lecture 7:
Lecture 8:
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Prof. Ching Chang
Prof. Ching Chang

Dept. Power Mechanical Engineering

Research Field

The Modeling and Computations for Fluid Dynamics, with Applications in Renewable Energy, Aerodynamics, and Biologically Inspired Engineering.

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