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《Linear Algebra》课程教学大纲

发布者:胡丹发布时间:2023-05-19浏览次数:10

Linear Algebra》课程教学大纲(三号黑体)

一、课程基本信息(四号黑体)

英文名称

Linear Algebra

课程代码

MDNE1025

课程性质

General education course

授课对象

New energy materials and devicesChinese-foreign Cooperative

学   分

3 Credits

学   时

54 Hours

主讲教师

Jin-Ho Choi

修订日期


指定教材

D. C. Lay,《Linear Algebra and Its Applications, (Publishing House of Electronics Industry)2010.

二、课程目标(四号黑体)"Linear Algebra" is a mathematical course studying vector spaces and linear transformations, which are widely used in applied science and technology. The topics in the course will cover the following aspects: linear equations, vector equations and matrix equations, linear transformations, matrix operations, determinants, vector spaces, eigenvalues and eigenvectors, orthogonality, symmetric matrices and quadratic forms, etc. After learning the course, the students will develop the abilities to analyze and solve the practical problems related with linear algebra and vectors.

(一)总体目标:(小四号黑体)

(以三维目标即知识与技能、过程与方法、情感态度与价值观的形式反映核心素养观念和内容,其中核心素养不仅关注学生“当下发展”,更关注学生“未来发展”所需要的正确价值观念、必备品格和关键能力,即把知识、技能和过程、方法提炼为能力,把情感态度、价值观提炼为品格)(五号宋体)

(二)课程目标:(小四号黑体)

(课程目标规定某一阶段的学生通过课程学习以后,在发展德、智、体、美、劳等方面期望实现的程度,它是确定课程内容、教学目标和教学方法的基础。)(五号宋体)

课程目标1Master matrix, determinant, space vector and other basic theories and basic knowledge through systematic learning

  1. Master the calculation of determinant, the elementary transformation of matrix, the definition and calculation of matrix rank, using the elementary transformation of matrix.

  2. Solving equations and inverse matrices, linear dependence of vector groups, eigenvalues and eigenvectors, etc.

课程目标2Through systematic study, master determinant calculation, matrix operation, elementary transformation, and apply to the solution of linear equations, quadratic form and linear transformation, can solve some mathematical problems.

 1Ability to apply course content to research and analyze complex science and engineering problems.

    2. To understand the general application of linear algebra in the energy industry, and closely related to the development of advanced materials science, enhance learning ability and learning awareness, enhance social responsibility.

(要求参照《普通高等学校本科专业类教学质量国家标准》,对应各类专业认证标准,注意对毕业要求支撑程度强弱的描述,与“课程目标对毕业要求的支撑关系表一致)(五号宋体)

(三)课程目标与毕业要求、课程内容的对应关系(小四号黑体)

1:课程目标与课程内容、毕业要求的对应关系表 (五号宋体)

课程目标

课程子目标

对应课程内容

对应毕业要求

课程目标1

1.1

Chapter One  Linear Equations

Chapter Two  Matrix Algebra

Chapter Three  Determinants

Chapter Four  Vector Spaces

Chapter Five  Eigenvalues and Eigenvectors

Chapter Six  Orthogonality

Chapter Seven  Symmetric Matrices and Quadratic Forms

毕业要求1

掌握新能源材料制备(或合成)、材料加工、材料结构与性能测定等方面的基础知识、基本原理和基本实验技能;

1.2

Chapter One  Linear Equations

Chapter Two  Matrix Algebra

Chapter Three  Determinants

Chapter Four  Vector Spaces

Chapter Five  Eigenvalues and Eigenvectors

Chapter Six  Orthogonality

Chapter Seven  Symmetric Matrices and Quadratic Forms

毕业要求2:能够应用数学、化学、物理等自然科学和工程科学的基本原理,识别、表达并通过文献研究分析复杂科学工程问题,以获得有效结论;

毕业要求4:具备运用科学原理和科学方法对复杂科学工程问题进行研究,包括设计实验、分析和解释数据、并通过信息综合得到合理有效的结论;


课程目标2

2.1

Chapter One  Linear Equations

Chapter Two  Matrix Algebra

Chapter Three  Determinants

Chapter Four  Vector Spaces

Chapter Five  Eigenvalues and Eigenvectors

Chapter Six  Orthogonality

Chapter Seven  Symmetric Matrices and Quadratic Forms

毕业要求2:能够应用数学、化学、物理等自然科学和工程科学的基本原理,识别、表达并通过文献研究分析复杂科学工程问题,以获得有效结论;

毕业要求4:具备运用科学原理和科学方法对复杂科学工程问题进行研究,包括设计实验、分析和解释数据、并通过信息综合得到合理有效的结论;

毕业要求5:能够针对新能源复杂科学问题,运用或开发适当的现代工具进行文献检索、资料查询、分析等:

2.2

Chapter One  Linear Equations

Chapter Two  Matrix Algebra

Chapter Three  Determinants

Chapter Four  Vector Spaces

Chapter Five  Eigenvalues and Eigenvectors

Chapter Six  Orthogonality

Chapter Seven  Symmetric Matrices and Quadratic Forms

毕业要求8:具有科学素养、社会责任感,能够在实践中理解并遵守职业道德和规范,履行责任;9.能够在多学科背景下的团队中承担个体、团队成员以及负责人的角色;

毕业要求12:具有自主学习和终身学习的意识,有不断学习和适应发展的能力。

(大类基础课程、专业教学课程及开放选修课程按照本科教学手册中各专业拟定的毕业要求填写“对应毕业要求”栏。通识教育课程含通识选修课程、新生研讨课程及公共基础课程,面向专业为工科、师范、医学等有专业认证标准的专业,按照专业认证通用标准填写“对应毕业要求”栏;面向其他尚未有专业认证标准的专业,按照本科教学手册中各专业拟定的毕业要求填写“对应毕业要求”栏。)

三、教学内容(四号黑体)

(具体描述各章节教学目标、教学内容等。实验课程可按实验模块描述)

第一章 Linear Equations(小四号黑体)

1.教学目标 (五号宋体)

 Learning knowledges about linear equations.

2.教学重难点

Problems:

1. Think of the relations among linear equations and vector and matrix equations?

2. Think of the difference between linear dependence and linear independence?

3. What is row reduced echelon form?

4. What is a linear transformation?

5. Think of the solution sets of a general linear systems?

3.教学内容

Section 1: Introduction and Linear equations

Class 1: Introduction, Basic concepts of systems of linear equations

Class 2: Row reduction and echelon forms I

Class 3: Row reduction and echelon forms II, exercises

Section 2: Vector equations and matrix equations

Class 4: Definition of vector equations, exercises

Class 5: Definition of matrix equations, exercises

Class 6: Solution sets of linear systems

Section 3: Linear Independence and Linear Transformations

Class 7: Definition of linear dependence and independence

Class 8: Introduction to linear transformations

Class 9: The matrix of a linear transformation


4.教学方法

 Method of lecture and questions between classes and tutoring after class.

5.教学评价

Through the teaching of this chapter, students can master linear equations.

第二章 Matrix Algebra (小四号黑体)

1.教学目标 (五号宋体)

Learning knowledges about vector equations and matrix equations.

2.教学重难点

Problems:

1. Think of the properties about matrix operations?

2. Think of the characterizations of invertible matrix?

3. What is a singular matrix?

4. What is the algorithm for finding the inverse of a matrix?

3.教学内容

Section 1: Introduction to Matrix Operations

Class 1: Definition of matrix operations, addition, multiplication, transpose

Class 2: Inverse of a matrix, exercises

Class 3: Characterizations of invertible matrix

Section 2: More on matrix

Class 4: Partitioned matrix, exercises

Class 5: Matrix equations, exercises

Class 6: Elementary matrix, symmetric matrix, exercises

4.教学方法

Method of lecture and questions between classes and tutoring after class.

5.教学评价

Through the teaching of this chapter, students can master vector equations and matrix equations.

第三章 Determinants (小四号黑体)

1.教学目标 (五号宋体)

 Learning knowledges about determinants, matrix operations and linear transformations.

2.教学重难点

Problems:

1. What is a determinant, how many ways to calculate it?

2. Think of the relations between matrix and determinant?

3. What is a adjoint of a matrix?

4. What is the use of the Cramer’s rule?

5. What are general properties for determinant calculation?

3.教学内容

Section 1: Introduction to Determinants

Class 1: Definition of determinants, the expansion theorem

Class 2: Properties of determinants, exercises

Class 3: Cramer’s rule, exercises

Class 4: More calculation on determinants

4.教学方法

Method of lecture and questions between classes.

5.教学评价

Through the teaching of this chapter, students can masterdeterminants, matrix operations and linear transformations.

第四章 Vector Spaces(小四号黑体)

1.教学目标 (五号宋体)

 Learning knowledges about vector spaces.

2.教学重难点

Problems:

1. What is a vector space and subspace?

2. Think of the difference between null space and column space?

3. What is the use of rank?

4. What is the dimension of a vector space?

5. What is the procedure for a change of basis and coordinate transformation?

3.教学内容

Section 1: Introduction to Vector Spaces

Class 1: Definition of vector spaces and subspaces, properties

Class 2: Definition of null space, column space, exercises

Class 3: Linearly independent sets, bases

Section 2: Coordinate transformation

Class 4: Definition of coordinate system, coordinate transformation

Class 5: Dimension of a vector space, the basis theorem

Class 6: Rank, the rank theorem, exercises

Class 7: Change of basis, exercises

4.教学方法

Method of lecture and questions between classes and exercises after classes.

5.教学评价

Through the teaching of this chapter, students can master vector spaces.

第五章 Eigenvalues and Eigenvectors(小四号黑体)

1.教学目标 (五号宋体)

 Learning knowledges about eigenvalues and eigenvectors.

2.教学重难点

Problems:

1. What are eigenvalues and eigenvectors?

2. What is the procedure to solve eigen-problems?

3. What is the condition for a matrix which can be diagonalized or not?

4. What are the properties for the characteristic equation?

3.教学内容

Section 1: Eigen-problems

Class 1: Definition of eigenvalues and eigenvectors

Class 2: The characteristic equation, exercises

Class 3: Diagonalization of a matrix I

Class 4: Diagonalization of a matrix II, exercises

Class 5: More on eigen-problems and diagonalization, exercises

4.教学方法

Method of lecture and questions between classes and exercises after classes.

5.教学评价

Through the teaching of this chapter, students can master Learning knowledges about eigenvalues and eigenvectors.

第六章 Orthogonality(小四号黑体)

1.教学目标 (五号宋体)

 Learning knowledges about orthogonality.

2.教学重难点

Problems:

1. What is inner product?

2. What is orthogonality?

3. What is the Schmidt process?

4. What is the use of orthogonal projection?

5. Think of the difference between vector space and inner product space?

3.教学内容

Section 1: Inner Product and Orthogonality

Class 1: Definition of inner product, length, orthogonality

Class 2: Orthogonal sets, orthogonal projection, exercises

Class 3: The Gram-Schmidt process, exercises

Class 4: Inner product spaces

4.教学方法

Method of lecture and questions between classes and exercises after classes.

5.教学评价

Through the teaching of this chapter, students can master orthogonality.

第七章 Symmetric Matrices and Quadratic Forms(小四号黑体)

1.教学目标 (五号宋体)

 Learning knowledges about symmetric matrices and quadratic forms, etc.

2.教学重难点

Problems:

1. Think of the difference in the diagonalization between common matrix and symmetric matrix?

2. What is the procedure for the diagonalization of a symmetric matrix?

3. What are the different types of quadratic forms?

4. What is the procedure for solving a quadratic form?

5. What is the use of the principal axes theorem for quadratic forms?

3.教学内容

Section 1: Symmetric matrices and quadratic forms

Class 1: Diagonalization of symmetric matrix, exercises

Class 2: The spectral theorem, exercises

Class 3: Definition of quadratic form

Class 4: The principal axes theorem, exercises

4.教学方法

Method of lecture and questions between classes and exercises after classes.

5.教学评价

Through the teaching of this chapter, students can master symmetric matrices and quadratic forms, etc.

四、学时分配(四号黑体)

2:各章节的具体内容和学时分配表(五号宋体)

章节

章节内容

学时分配

第一章

 Linear Equations

 3 Weeks9 Hours

第二章

 Matrix Algebra

 2 Weeks6 Hours

第三章

 Determinants

 2 Weeks4 Hours

第四章

 Vector Spaces

 2 Weeks7 Hours

第五章

 Eigenvalues and Eigenvectors

 2 Weeks5 Hours

第六章

 Orthogonality

 1 Weeks4 Hours

第七章

 Symmetric Matrices and Quadratic Forms

 1 Weeks3 Hours

五、教学进度(四号黑体)

3:教学进度表(五号宋体)

周次

日期

章节名称

内容提要

授课时数

作业及要求

备注

 1

 9.30

 Linear Equations

 Introduction and Linear equations

 3 hours

 Understanding Linear equations


 2-3

 10.7 &10.14

 Linear Equations

 Vector equations and matrix equations

 6 hours

 Master solving Linear equations


 4-5

 10.21 &10.28

 Matrix Algebra

 Introduction to Matrix Operations and More on matrix

 6 hours

 Understanding Linear equations


 6-7

 11.4 & 11.11

 Determinants

 Introduction to Determinants

 4 hours

 Understanding Determinants


 8-9

 11.18 & 11.25

 Vector Spaces

 Introduction to Vector Spaces and Coordinate transformation

 7 hours

 Master what is Vector Spaces


 10-11

 12.2 & 12.9

 Eigenvalues and Eigenvectors

 Eigen-problems

 5 hours

 Master solving Eigenvalues and Eigenvectors


 12

 12.16

 Orthogonality

 Inner Product and Orthogonality

 4 hours

 Understanding Orthogonality


 13

 12.23

 Symmetric Matrices and Quadratic Forms

 Symmetric matrices and quadratic forms

 3 hours

 Master Symmetric Matrices and Quadratic Forms


六、教材及参考书目(四号黑体)

(电子学术资源、纸质学术资源等,按规范方式列举)(五号宋体)

 TextbooksD. C. Lay,《Linear Algebra and Its Applications》,(Publishing House of Electronics Industry)2010.

References

1. Linear Algebra, by Z.M. Tang, et al., (Science Press, 2011). (In Chinese)

2. Linear Algebra (6ed), by Tongji University, (Higher Education Press, 2014). (In Chinese)

3. Linear Algebra with Applications (9ed), by S.J. Leon, (China Machine Press, 2017).

4. Introduction to Linear Algebra (5ed), by L.W. Johnson, et al., (China Machine Press, 2012).

5. Linear Algebra done right (2ed), by S. Axler, (Beijing World Publishing Corporation, 2008).



七、教学方法 (四号黑体)

(讲授法、讨论法、案例教学法等,按规范方式列举,并进行简要说明)(五号宋体)

  1.  Theoretical class teaching,

  2.  practice and discussion class,

  3.   Q&A and problem communication,

  4.  electronic resources and mathematics experiment learning guidance.

八、考核方式及评定方法(四号黑体)

(一)课程考核与课程目标的对应关系 (小四号黑体)

4:课程考核与课程目标的对应关系表(五号宋体)

课程目标

考核要点

考核方式

课程目标1

Learning knowledges about linear equations.

Q&A, quiz in class

课程目标2

Learning knowledges about vector equations and matrix equations.

Q&A, quiz in class

课程目标3

Learning knowledges about determinants, matrix operations and linear transformations.

Q&A, quiz in class

课程目标4

Learning knowledges about vector spaces.

Q&A, quiz in class

课程目标5

Learning knowledges about eigenvalues and eigenvectors.

Q&A, quiz in class

课程目标6

Learning knowledges about orthogonality.

Q&A, quiz in class

课程目标7

Learning knowledges about symmetric matrices and quadratic forms, etc.

Q&A, quiz in class

(二)评定方法 (小四号黑体)

1.评定方法 (五号宋体)

(例:平时成绩:10%,期中考试:30%,期末考试60%,按课程考核实际情况描述)(五号宋体)

Course Attendance and Performance: 10%

Homework and Quiz: 20%

Midterm Exam: 30%

Final Exam: 40%

2.课程目标的考核占比与达成度分析 (五号宋体)

5:课程目标的考核占比与达成度分析表(五号宋体)

考核占比

课程目标

平时

期中

期末

总评达成度

课程目标1

20%

30%

50%

课程目标达成度={0.2x平时目标成绩+0.3x期中目标成绩+0.5x期末目标成绩}/目标总分。按课程考核实际情况描述

课程目标2

20%

30%

50%

课程目标3

20%

30%

50%

(三)评分标准 (小四号黑体)

课程

目标

评分标准

90-100

80-89

70-79

60-69

60

合格

不合格

A

B

C

D

F

课程

目标1

熟练掌握线性代数基础理论与基础知识

较熟练掌握线性代数基础理论与基础知识

基本掌握线性代数基础理论与基础知识

未全面掌握线性代数基础理论与基础知识

未掌握线性代数基础理论与基础知识

课程

目标2

具有熟练的线性代数运算能力,能利用线性代数方法解决一些实际问题的能力,从而为学习后继课程及进一步扩大知识面奠定必要的数学基础,并能够以此为工具分析和处理工程实际问题。

具有熟练的线性代数运算能力,能利用线性代数方法解决一些实际问题的能力,从而为学习后继课程及进一步扩大知识面奠定必要的数学基础,并能够以此为工具分析和处理工程实际问题。

具有熟练的线性代数运算能力,能利用线性代数方法解决一些实际问题的能力,从而为学习后继课程及进一步扩大知识面奠定必要的数学基础,并能够以此为工具分析和处理工程实际问题。

具有熟练的线性代数运算能力,能利用线性代数方法解决一些实际问题的能力,从而为学习后继课程及进一步扩大知识面奠定必要的数学基础,并能够以此为工具分析和处理工程实际问题。

具有熟练的线性代数运算能力,能利用线性代数方法解决一些实际问题的能力,从而为学习后继课程及进一步扩大知识面奠定必要的数学基础,并能够以此为工具分析和处理工程实际问题。

课程

目标3

具有自主学习和终身学习的意识,有不断学习和适应发展的能力。

具有自主学习和终身学习的意识,有不断学习和适应发展的能力。

具有自主学习和终身学习的意识,有不断学习和适应发展的能力。

具有自主学习和终身学习的意识,有不断学习和适应发展的能力。

具有自主学习和终身学习的意识,有不断学习和适应发展的能力。



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