Advanced Mathematics is a compulsory public foundation course for engineering and management students. It includes the basic concepts, basic theories and basic arithmetic skills of functions and limits, calculus of functions and differential equations, and lays the necessary mathematical foundation for the study of subsequent professional courses and further acquisition of mathematical knowledge.

Linear Algebra is a basic mathematics course for computer science and business majors. The main task of the course is to enable students to master matrix methods, linear equations, quadratic forms and other theories commonly used in applied science, master matrix operations and can apply matrix operations, and thus solve practical problems. This course also develops the students' ability of logical reasoning and abstract thinking, and lays the foundation for subsequent courses.

Probability and Mathematical Statistics is a basic mathematics course for engineering majors to study the objective regularity of random phenomena, is a required course. The main task is to make students master the basic concepts of probability theory and mathematical statistics, understand its basic theory and methods, so that students can initially master the basic ideas and methods of dealing with random phenomena, and cultivate students' ability to analyze and solve practical problems by using probability statistics methods.

Complex Functions and Integral Transformations mainly introduces complex numbers and complex functions, analytic functions, integration of complex functions, Coasean integral theorem, Coasean integral formula, series, residue, Fourier transform, Laplace transform, etc.

The Mathematics Experiment is a public foundation course integrating symbolic computation, numerical computation, mathematical statistics, mathematical modeling and mathematical software to improve students' mathematical ability as the basic requirement, and focus on mathematical software and professional characteristics. This course includes two parts: the first part is the basic part. Based on the basic content of university mathematics, students make full use of the numerical and graphical functions of mathematical software to intuitively feel the basic concepts and conclusions of mathematics, experience the discovery, summary and application of mathematical laws. The second part is the improvement part. Centering on university mathematics to disperse to professional disciplines, it further improves students' ability to apply mathematical software and solve practical problems through case teaching.

Physics systematically describes the basic concepts, theories and methods of mechanics and thermodynamics in physics. Mechanics includes the kinematics of masses, Newton's law, momentum theorem and energy conservation law, rigid body rotation, vibration, fluctuation, etc.; Thermodynamics includes the kinetic theory of gases and the foundation of thermodynamics, etc.

Physics Experiment provides students with basic knowledge, methods, skills and innovation training, and deepens the understanding of physical principles. Through the training of physics laboratory courses, students are required to master the measurement methods of some common physical quantities, understand the construction principles, main performance and use of common instruments in physics experiments, and basically have the ability to observe phenomena, measure data, design experiments according to requirements and process and analyze the results to write out a complete experimental report. To lay a solid foundation for future practical work.