Current location - Training Enrollment Network - Mathematics courses - Mathematical physics major
Mathematical physics major
I am an automation major, and I belong to the weak current major of telecommunications, which is between computer and telecommunications. I have both soft and hard skills. Now the social demand is wide, and I have a wide range of employment. And if I want to continue my studies, I have many choices and a very broad prospect.

The requirements for mathematics and physics are also quite high. Mathematics-related subjects include advanced mathematics, linear algebra, probability theory and mathematical statistics, complex variable function and integral transformation, Matlab, signal and system analysis ... Physics-related subjects include college physics, circuit principle, digital electronic technology, analog electronic technology, microcomputer principle and interface technology ... There are also many courses about computers, such as C language programming, data structure and so on. ...

I'm a sophomore now, and I've studied so many important courses, and the division of related courses is rather general, so I can't generalize. Generally speaking, it is better to study the major of bias electricity (such as telecommunications and computer), which is more practical, covers a wider range and is better for further study. Among them, weak current is slightly better than strong current.

The following curriculum of automation major of Xi Jiaotong University (ranked sixth in the country) is representative and can be referred to:

Professional plan inquiry

Semester: Please select all semesters to view the master plan. All semesters 1, second, third, fourth, fifth, sixth, seventh and eighth semesters.

Category Terminology Number Course Name Hours Credits Week Course Category Selection/Compulsory Start and End Weeks Weekly Hours

Term 1 1 Introduction to Mao Zedong Thought 32 2 8 Public * * * Basic Compulsory1-kloc-0/7 2

No. 1 second semester physical education (1) 32 1 16 compulsory basic courses 1- 17 2

Semester 1 3 Ideological and Moral Cultivation 24 1.5 Compulsory Basic Courses 1- 17 2

Term 1 4 Linear Algebra and Geometry (Ⅱ) 48 30 Compulsory Course of Natural Science 3

No.65438 +0 Term 5 Advanced Mathematics (Ⅰ)188 5.516 Compulsory Science 6

Term 1 6 Basic Programming 48 3 Compulsory Engineering 1- 17 3

Term 1 7 Basic English 1 64 4 16 Compulsory Basic English 4

Term 1 8 University Studies 16 1 8 Other Elective Compulsory Courses 1- 17 (Double) 2

Term 1 9 Computer Culture Basics 20 1 1 Centralized Practice Course Required 1- 17 2

Term 1 10 Military Theory 32 2 Centralized Practice Course Required 1- 17 2

Second semester 1 1 modern enterprise management 32 2 16 public foundation compulsory 1- 17 2

Second semester/KOOC-0/2 Advanced Mathematics Experiment (I)/KOOC-0/6/KOOC-0/6 Centralized Practice Course/KOOC-0/-/KOOC-0/70

Second semester 13 physical education (2) 32 1 16 public * * * basic compulsory 1- 17 2

Second semester 14 Engineering Drawing (Ⅲ) 32 216 Basic Course Required 1- 17 2

Second semester 15 College Physics 1 64 4 Compulsory Science 16438+074

Second semester/KOOC-0/6 Physics Experiment/KOOC-0/24/KOOC-0/.5 Compulsory Course of Natural Science/KOOC-0/-/KOOC-0/7 2

Second semester 17 advanced mathematics (Ⅰ) 2 88 5.516 required course of natural science 1- 17 6

The second semester 18 Introduction to Automation 32 2 16 Required Basic Courses 1- 17 2

Second semester 19 Basic English 2 64 4 16 Compulsory Basic English 1- 17 4

20 special experiments on programming in the second semester (optional) 0 2 intensive exercises are required 1- 17 0.

Second semester 2 1 MATLAB application experiment (optional) 0 2 concentrated practice session is required 1- 17 0

The second semester 22 Military training 0 4 Engineering technology 20-22 4

In the third semester, 23 physical education (3) 32 1 16 compulsory basic course 1- 1.

The third semester 24 discrete mathematics 48 3 compulsory science 1- 18 3

In the third semester, 25 college physics 2 64 4 compulsory science 1- 18 4

The third semester 26 Physics Experiment 2 24 1.5 Compulsory course of natural science 1- 18 2

The third semester 27 complex variable function and integral transformation 40 2.5 natural science required 1- 18 2

The third semester 28 Circuit 72 4.5 Engineering Science Required Course 1- 18 4

The third semester 29 Basic English 3 64 4 16 Compulsory Basic English 1- 18 4

Third semester 30 public welfare labor10.5 needs for concentrated practice 1- 18 0

The fourth semester 3 1 Marxist political economy 32 2 16 public * * * basic compulsory course 1- 17 2

Term 4: 32 Physical Education (IV) 32 1 16 Public Basic Compulsory 1- 17 1.

The fourth semester 33 Basic Law 24 1.5 Compulsory Public Basic 1- 17 2

The fourth semester 34 probability theory and stochastic process 48 3 compulsory course of natural science 1- 17 3

The fourth semester 35 electronic technology foundation 80 5 engineering science required 1- 17 5

Semester 4 36 Signals and Systems 72 4.5 Compulsory Engineering 1- 17 4

The fourth semester 37 data structure and software methods 56 3.5 required courses in engineering 1- 17 4

Term 4: 38 Basic English 4 64 4 16 Compulsory Basic English 1- 17 4

The fourth semester 39 public welfare labor 2 0 0.5 concentrated practice needs 1- 17 0

In the fourth semester, 40 comprehensive elective experiments are required to focus on practical links 1- 17 2.

Fourth semester 4 1 electronic practice 0 2 concentrated practice link requirements 1- 17 2

The fifth semester 42 management foundation 32 2 16 public * * * basic college elective 2

The fifth semester 43 engineering economics 32 2 16 public basic university elective 2

The fifth semester 44 digital logic circuit 80 5 0 engineering compulsory course 5

The fifth semester 45 automatic control theory 72 4.5 0 engineering compulsory 4

The fifth semester 46 digital signal processing 40 2.5 0 engineering compulsory 2

5 th semester 47 Introduction to Artificial Intelligence 32 2 16 Specialized and Interdisciplinary Elective Courses University Elective Course 2

5 th semester 48 Software Engineering 32 2 16 Professional and Interdisciplinary Elective Course 2 in Colleges and Universities

In the fifth semester, 49 electronic technology special experiment (elective) 0 2 2 concentrated practice link, college-level elective 2.

The sixth semester 50 system modeling and dynamic analysis 32 2 16 required engineering science 1- 17 2

The 6th semester 5 1 numerical analysis and algorithm 40 2.5 16 professional foundation and professional compulsory 1- 17 2.

The sixth semester 52 Modern Communication Principles 72 4.5 0 Professional and Interdisciplinary Electives University Electives 1- 17 4

In the sixth semester, 53 special experiments on embedded systems were 0 1 16, elective courses in concentrated practice 1.

In the sixth semester, 54 Principles and Applications of Single Chip Microcomputer 32 2 0 Specialized and Interdisciplinary Electives University Electives 1- 17 2

The sixth semester 55 Modern Control Theory 32 2 16 Professional Foundation and Professional Compulsory 1- 17 2

Semester 6 56 Fundamentals of Information Theory (II) 40 2.5 0 Elective Courses for Majors and Interdisciplinary Courses 2

In the sixth semester, 57 programmable logic controller and its application 32 2 0 professional and interdisciplinary elective courses, college-level elective courses 1- 17 2.

The sixth semester 58 Data Mining and Knowledge Discovery 32 2 0 Professional and Interdisciplinary Electives University Electives 1- 17 2

The sixth semester 59 Introduction to Embedded System 32 2 16 Elective Courses for Specialty and Interdisciplinary College 1- 17 2

The sixth semester 60 e-commerce technology foundation 32 2 16 professional and cross-professional elective courses college elective courses 1- 17 2

6th semester 6 1 advanced control method 32 2 16 professional and interdisciplinary elective courses 1- 17 2.

The sixth semester 62 industrial monitoring network 48 3 16 professional and interdisciplinary elective courses college elective courses 1- 17 3

Semester 6 63 Modern Testing Technology 48 3 16 Professional Foundation and Professional Compulsory 1- 17 3

Semester 6 64 Intelligent Control Basis 40 2.5 16 Specialized and Interdisciplinary Elective Courses 1- 17 2

Sixth semester 65 Data Communication and Computer Network 48 3 16 Specialized and Interdisciplinary Elective Courses 1- 17 3

The sixth semester 66 Image Measurement Technology 32 2 16 Professional and Interdisciplinary Elective Courses 1- 17 2

The sixth semester 67 database technology 32 2 16 professional and interdisciplinary elective courses 1- 17 2

The sixth semester 68 Image Processing and Pattern Recognition 48 3 16 Professional and Interdisciplinary Electives 1- 17 3

In the sixth semester, 69 production practice 0 3 3 concentrated practice link is required 1- 17 3.

In the sixth semester, 70 special experiments on digital systems (optional course) 0 2 2 concentrated practice link college-level optional course 1- 17 2

Sixth semester 7 1 special experiment of control theory (optional) 0 2 2 concentrated practice link college-level elective 1- 17 2

In the 6th semester, 72 PLC control system special experiment (optional course) 0 2 2 concentrated practice link college-level elective course 1- 17 2

In the 6th semester, 73 Labview Special Experiment (Elective Course) 0 2 2 Centralized Practice Link College Elective Course 1- 17 2

Semester 8 74 Intelligent Information Processing 32 2 Compulsory Engineering Technology 2

Semester 8 75 Network System Engineering 32 2 Compulsory Engineering Technology 2

The eighth semester 76 CPLD technology and application 32 engineering technology compulsory 2

Semester 8 77 Multi-sensor Information Fusion 32 2 Compulsory Engineering Technology 2

Semester 8 78 Basic Physics of Optical Fiber Communication 32 2 Compulsory Engineering Technology 2

The eighth semester 79 graduation design 0 12 concentrated practice required 12.

Also, even if the same major and different schools have different training plans, the main knowledge and knowledge structure are still similar. In addition, the same major may be divided into different branches and directions in the same school, depending on the school's level of running the major.

You said that pure mathematics or related mathematics is difficult to learn. Relatively speaking, pure physics and related physics are ok, but still not as good as engineering and technology majors. They use a lot of mathematics and physics knowledge, because they are practical and don't get bogged down in details, which is one of the reasons why engineering is popular in the current environment.

I suggest you study telecommunications or electrical major, especially weak.