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Biochemistry is simple, and it takes a lot to memorize. If you're good at memorization, that's fine.
Physical chemistry depends on the group theory that contains and does not contain structural chemistry, and the physicochemical structure is full of difficulties. The distribution function in dynamics is the focus. Thermodynamic phase diagram, what conditions are met by several processes, and what equations are there.
Difference between ideal and non-ideal gases. Anyway, it's very difficult, and there are a lot of difficulties!
It is recommended to choose biochemistry, read the book a few times to get a high score, and a high score in physics and chemistry is not good, after all, you have to compare scores with others!
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It depends on which school.
Some schools are good at physics and chemistry, and some schools are good at chemistry.
The most important thing is to see which subject you have learned solidly, or are more interested.
Comparatively speaking, biochemistry requires a certain amount of knowledge about biology, and there will be more concepts that need to be memorized. Whereas, physical chemistry does not require much knowledge of physics. But there will be many formulas, and there will be many derivations of formulas.
In other words, if you recite kung fu fiercely, you will choose biochemistry, and if you have strong reasoning, you will materialize.
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In my experience, these two subjects are difficult, but biochemistry is relatively easy to learn, and when we learn physics, the formulas are super annoying, and we don't know how to substitute formulas when we read books during exams.
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You are from Jiangsu, to be honest, I think biology is easier to learn, physics is suitable for people with strong computing ability and divergent thinking, and biology is mainly a test of memory, so I recommend choosing biochemistry.
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Chemistry and biology are suitable for what majors are as follows:
Chemical biogeography is a comprehensive discipline that integrates chemistry, biology and geography, so the choice of the corresponding major should be based on personal interests, strengths and career planning and other factors. Below I would like to introduce you to some professional directions related to chemical biogeography.
1.Life Science Majors:
Including biology, life sciences, biotechnology, ecology, etc. These majors are most relevant to chemical biogeography, covering the research content of plants, animals, microorganisms, environment and other fields, with deep biology, chemistry foundation and experimental skills. After graduation, students can engage in basic research, applied research, and education and teaching.
2.Geographic Information Science Major:
It mainly includes remote sensing science and technology, geographic information science, spatial information and digital technology, etc. These majors focus on the study of spatial information science and technology, including sensor technology, remote sensing technology and geographic information system, and have a wide range of applications in environmental monitoring, resource survey, urban planning, land use and other fields.
3.Chemistry Major:
Including chemistry, materials science and engineering, polymer materials and engineering, etc., these majors study the structure, properties and change laws of matter, and have a wide range of applications in the field of chemical biogeography. After graduation, you can work in many fields such as chemical production, new material research and development, environmental protection, and cosmetics production.
4.Biomedical engineering majors are defensive:
It mainly includes biomedical engineering, bioinformatics, human anatomy and tissue engineering, etc.
These majors combine biology, medicine, and engineering, and are able to design and develop medical devices, drugs, and procedures, and make significant contributions to the study of genetics, disease diagnosis, and research. After graduation, you can work in medical research, diagnostics, **, and education in hospitals, research institutes, pharmaceutical companies, and more.
5.Environmental Science and Engineering:
It mainly includes environmental science, environmental engineering, urban planning, etc.
They are committed to solving environmental problems, including research on pollution control technology, environmental monitoring, ecological restoration, etc., involving the study of environmental elements such as air, water, and soil. After graduation, you can be engaged in environmental protection management, environmental protection technology research and product development in national environmental protection departments, first-class institutions, petrochemical enterprises, environmental engineering consulting companies, etc.
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Biochemistry is a must be learned in bioengineering, and the main research content of this book roughly includes several aspects, the chemical composition of organisms, the metabolism of substances in organisms, energy conversion, and metabolic regulation, and the information metabolism of organisms.
Biochemistry is the science that studies the chemical composition of living organisms, the various chemical changes that sustain life activities and their interconnections, that is, the science that studies the chemical nature of living activities.
The objects of biochemical research are living organisms, including viruses, archaea, eubacteria, yeasts, fungi, algae, and plants and animals.
The core of biochemistry is metabolism (mastering several major cycles in the human body, such as the metabolism of sugars, the three major carboxylic acid cycles, oxidative phosphorylation, photosynthesis, etc.), of course, the core will also focus on molecular biology, that is, some questions about the expression of gene regulatory proteins. These form the basis for future research, such as rotten diseases (which require the study of genetic and metabolic problems).
The theoretical foundation you need is organic chemistry and basic chemistry, as well as the basic theories in front of the biochemistry textbook. The latter is the knowledge of metabolism and synthesis, which needs the theoretical support of the front.
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Life is based on the basic laws of physics and chemistry, and it is included in the scope of biology from organisms with autonomous functions to higher-level ecological phenomena arising from the interaction between the environment and living organisms.
Biology also refers to the earth that appeared about 3.8 billion years ago, and after a long and slow evolution, it eventually became the current variety of living beings. Evolution refers to the process of change according to a certain principle. Therefore, we can understand the current biodiversity in terms of physics, chemical principles and evolutionary theories.
By understanding the principles of biological evolution and relating the principles of physics and chemistry to biological phenomena, it is easy to understand the phenomena of biological diversity.
Personally, I feel that biopharmacy is better, biochemistry gives me too general feeling, I myself am an undergraduate graduate of bioengineering, it will be more difficult for undergraduate graduates of this kind of major to find a job, but graduate students and doctors (when looking for a job, will examine the individual's experimental hands-on ability and experimental design ability) should have a certain space for development, if you want to continue your studies, you can choose this kind of major. (There should be more biotech companies now than in previous years). >>>More
Yu Nature, Modern Biochemistry, Wang Jingyan Biochemistry.
Categories: Education Science.
Problem description: What is biochemistry? It would be useful to give some examples of the definition and the aspects involved in its study. >>>More
Multiple choice question 1 is that the order of the bases on the mRNA should determine the primary structure of the protein. >>>More
Sichuan University, hahaha!
Chapter I. Prolegomenon. >>>More