What do you need to prepare for the interdisciplinary entrance examination for graduate students in

You can take the cross-examination of the major you are interested in.

Interdisciplinary postgraduate examination is the activity of selecting non-professional courses related to or unrelated to one's major as research or postgraduate examination goals in addition to one's major, and conducting graduate examinations.

As the name suggests, the important thing in this frequently used term is interprofessionalism. Postgraduate entrance examination is a way of life and study chosen by college students or people who have already worked, in order to seek their own perfection, or to avoid harsh social competition.

The problem that many students must consider when taking the cross-major postgraduate examination is the difficulty of the inter-major postgraduate examination.

How much foundation you are really interested in in the original university, the major you want to choose is in this school, how difficult the competition is every year, and what kind of fighters compete with you for this major, which is what kind of students must consider.

In the one-year review process, if you go to cross majors, and from unpopular to popular, or cross to completely unrelated majors, such as your original student biology, you have to study finance, you originally studied medicine, you have to study management, accounting, so you face more difficulty, you must consider, you have to learn all the knowledge of public courses and professional courses, and complete the learning tasks, whether your foundation can be completed in one year, this is very realistic, not a problem that can be solved with enthusiasm and courage alone.

In fact, chemistry majors are still more popular with people, and it is recommended that you can stick to them, and you can choose some cross-examination majors with relatively low thresholds, but these majors often have the disadvantage of too many applicants.

Bachelor's degree in chemistry.

Graduate school entrance examinations should try to choose similar majors. For example, the major that focuses on the application of chemistry is an applied science major between chemistry and chemical engineering technology. Applied Chemistry.

It is through learning to master a variety of chemical knowledge and apply it to actual production and life. Inorganic chemistry.

is an inorganic compound.

The study of chemistry is an important branch in the field of chemistry. From the traditional point of view of inorganic chemistry, the research of bioinorganic chemistry and radiochemistry is relatively backward.

1.Graduates of this major can work as chemistry teachers, chemistry teaching researchers and other educators in secondary schools and above. It is also possible to engage in related research and application work in production enterprises, such as some large pharmaceutical companies and inspection and quarantine bureaus.

Physics is developed on the basis of physics and chemistry. It takes a wealth of chemical phenomena and systems as the object, adopts a large number of physical theoretical achievements and experimental techniques, explores, summarizes and studies the basic laws and theories of chemistry, and constitutes the theoretical foundation of chemical science.

2.Analytical chemistry.

It is a science that studies the analysis methods and theories of chemical information such as the composition, content, structure and morphology of substances, and is an important branch of chemistry. It is to identify which components are contained in a substance, which components the substance consists of, determine the relative content of various components, and study the molecular structure or crystals of the substance. Analytical chemistry has high practical value and has made important contributions to human material civilization.

3.When choosing the direction of chemistry postgraduate examination, it is necessary to determine your value orientation and understand what kind of talent you want to become, whether you are a research-oriented or an application-oriented talent. At the same time, it is important to be clear about your employment intentions, whether you want to continue your research or work in an applied field. Select Pharmaceutical Engineering.

The direction is very clear, you can go to pharmaceutical-related production enterprises and institutions.

Engaged in drug production, operation, inspection and supervision, research and development, etc. The prospects are okay, this major requires good professional knowledge and basic skills, it is not difficult to find a good job after coming out, and the salary is not bad. The above is the answer to the question of how to choose a major for undergraduate chemistry majors.

When choosing a major, you need to choose according to your major, you can choose inorganic chemistry, organic chemistry, or physical chemistry.

You can choose to major in chemistry, you can choose chemistry research, you can choose chemistry education, you can change majors, such as Marxist philosophy, you can choose psychology or pedagogy.

You can choose inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, polymer chemistry and physics and other majors to see the direction you want to choose.

You should choose a major that suits you according to your personal ability and your preference for the major. You should also make a choice according to the arrangement of the school and the tutor, so that you can choose the major that suits you.

Zhejiang University, Tsinghua University, and Jilin University, etc., which are better schools for chemistry majors, can be considered (the school can be determined according to the ranking of this professional college in recent years).

It is recommended to choose the major according to your interests. The better directions are: inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, polymer chemistry and physics.

The word "chemistry" literally means "the science of change". Chemistry, like physics, is the basic science of natural sciences, and is an experiment-based discipline, which has developed rapidly in the interpenetration with physics, biology, geography, astronomy and other disciplines, and has also promoted the development of other disciplines and technologies. For example, the results of nucleic acid chemistry have led to the advancement of today's biology from the cellular level to the molecular level, establishing molecular biology.

Some of its main courses are:

1.Inorganic Chemistry: Elemental Chemistry, Inorganic Synthetic Chemistry, Inorganic Polymer Chemistry, Inorganic Solid Chemistry, Coordination Chemistry (i.e., Complex Chemistry), Isotope Chemistry, Bioinorganic Chemistry, Organometallic Chemistry, Metalloenzyme Chemistry, etc.

2.Organic Chemistry: General Organic Chemistry, Organic Synthetic Chemistry, Metallic and Non-metallic Organic Chemistry, Physical Organic Chemistry, Bioorganic Chemistry, Organic Analytical Chemistry.

3.Physical Chemistry: Structural Chemistry, Thermochemistry, Chemical Thermodynamics, Chemical Kinetics, Electrochemistry, Solution Theory, Interface Chemistry, Colloidal Chemistry, Quantum Chemistry, Catalysis and Its Theory, etc.

4.Analytical Chemistry: Chemical analysis, instrumentation and analysis of new technologies.

Including performance determination, monitoring, various spectroscopic and photochemical analysis, various electrochemical analysis methods, mass spectrometry analysis, various electron microscopy, imaging and morphology analysis methods, ** analysis, activity analysis, real-time analysis, etc., various physical and chemical properties and physiological activity detection methods, extraction, ion exchange, chromatography, mass spectrometry and other separation methods, separation and analysis coupling, synthesis separation analysis triple use, etc.

5.Polymer Chemistry: Natural Polymer Chemistry, Polymer Synthetic Chemistry, Polymer Physical Chemistry, Polymer Applications, Polymer Physics.

6.Nuclear Chemistry: Radioactive Element Chemistry, Radioanalytical Chemistry, Radiation Chemistry, Isotope Chemistry, Nuclear Chemistry.

7.Biochemistry: General Biochemistry, Enzymes, Microbial Chemistry, Phytochemistry, Immunochemistry, Fermentation and Bioengineering, Food Chemistry, Coal Chemistry, etc.

Other marginal disciplines related to chemistry include: geochemistry, ocean chemistry, atmospheric chemistry, environmental chemistry, cosmochemistry, interstellar chemistry, etc.