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Anonymous users2024-02-08Whatever you do, just memorize what you do. You can't memorize it backwards, at least you can find it out quickly. It's not very related to what you're doing, there's no need to be familiar, and it doesn't make people feel good.
For example, I used to knock out a gene for a certain bacterium to make it produce a certain product. So I need to be familiar with what genes to knock, how to knock, what enzymes to use, what the metabolic pathway is, what is the molecular formula of the main product produced, what is the crystal structure, what are the physical and chemical properties, these things are very familiar. As for things that are not related to what I usually do, such as what an atmosphere of pressure is, what Avogadro's constant is, I have forgotten all about it.
No one will ask me, and no one will think wow, if I say it, it's great. The point is, no amount of information you know about something that can be searched directly online can make you a unique person. Something you know that others don't, such as your deep understanding of a field, is what sets you apart from others.
So what should you keep in mind? I think it's something that isn't science or engineering. Make yourself a little more interesting and enriched.
However, in the current situation where heroes are judged by scores, and under the condition that most exams are still dominated by rote memorization, it is impossible not to memorize. So, in the end, you may not be able to take care of anything else except those that must be tested in the exam. If I encourage my classmates to read more extracurricular books and read more idle books, parents will definitely want to swallow me.
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Anonymous users2024-02-07This question is too broad, you say engineering students, engineering students have to be divided into a variety of ah, it depends on what the specific major, different majors to know differently, for example, we learn software, the basic common sense is of course to understand some computer-related knowledge (this is the most basic), of course, you can also learn C language first, in fact, I can you, you need to have an innovative spirit, a solid theoretical foundation of these, but I don't want to say such clichés, nonsense. Do you think that students with science and engineering backgrounds also need to read more "useless books"? In addition to "cultivating sentiments", will it be of any use to your future development?
If so, how did everyone find the books they were looking for? (Medicine and agriculture are also counted.......)I don't know how to divide the majors t t) When I was chatting with a junior brother that day, I casually recommended some books such as "Sophie's World", but the other party replied: "I don't have time to read idle books."
When I asked him what kind of "extracurricular books" he was reading, he seemed to list some extended books related to his major, and the closest to "idle books" were probably "God and New Physics" and "A Brief History of Everything". I also studied science and engineering, but since I was in school, I have loved reading "useless books", and I have read a lot of good and bad books, and it is difficult to say whether reading these books has been useful for my development in retrospect, so I would like to ask you what you think. <>
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Anonymous users2024-02-06Graduate students are majoring in liberal arts in science and engineering. It's not a big difference, because the teachers come from liberal arts colleges, and the people who come into contact with liberal arts colleges are liberal arts students. It is said that they are even more powerful because of their great logical thinking, but their pen is super good, and the study of philosophy and law graduate majors is actually not much different, that is, to read and write articles (specifically referring to me), of course, there are also those who go out to research, mainly to collect information; You can sit at your desk for seven hours a day. You can only learn something if you learn something that you don't think you can learn.
In general, it is much more important to know why it is than to know what it is. When it comes to science and engineering, no one can lie for long. It's not geniuses who do creative work.
You have to be high and hard about yourself. The world is changing fast, and it's better to study those disciplines that are solid and timeless. You can never catch up, and neither do others.
The future of computer culture is happening all around you, not something you learned in computer culture classes. Mathematics remains the queen of science. <>
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Anonymous users2024-02-05Definite integral of Gaussian function, (2), Compton effect calculation, Bloch function, ......These are common knowledge that most people have never heard of science.
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Anonymous users2024-02-041.Liberal arts are more difficult than science. 2.You can't really blame the male and female ratio if you can't find the object.
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Anonymous users2024-02-03Science and engineering encompasses both science and engineering, and it includes mathematics, physics, chemistry, biology, astronomy, engineering and other fields. Science majors include mathematics, chemistry, astronomy, etc., and engineering majors include vehicle engineering, automation, civil engineering, landscape architecture, etc.
The science category consists of mathematics, physics, chemistry, astronomy, geographical sciences, geology, biological sciences, psychology, statistics, science experimental classes, etc., and each discipline category will also be subdivided into various majors, such as mathematics including mathematics and applied mathematics, information and computing science, mathematical and physical basic sciences and other majors, chemistry including chemistry, applied chemistry, chemical biology, molecular science and engineering and other majors.
There are 32 categories of mechanics, machinery, instruments, materials, energy and power, electrical, electronic information, etc., each category will be divided into different majors, such as electrical class including light source and lighting, smart grid information engineering, electrical engineering and automation, electrical engineering and intelligent control and other majors, civil engineering including civil engineering, urban underground space engineering, building electrical and intelligent, road and bridge and river crossing engineering, building environment and energy application engineering, Water supply and drainage science and engineering and other majors.
Although science and engineering majors are often said together, there is still a certain difference between science and engineering majors, science majors focus more on theoretical learning, engineering majors focus on practice, and students who want to engage in scientific research or continue their studies are more suitable for science majors. Common psychology, geography, statistics, astronomy, physics, etc. all belong to the category of science, while engineering mechanics, chemical engineering and technology, and pharmaceutical engineering all belong to the category of engineering.
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Anonymous users2024-02-02Science majors usually have:
Mathematics and Applied Mathematics, Information and Computing Science, Physics, Applied Physics, Chemistry, Applied Chemistry, Biological Sciences, Biotechnology, Astronomy, Geology, Geochemistry, Geographic Sciences, Resources, Environment and Urban and Rural Planning and Management, Geographic Information System, Geophysics, Atmospheric Sciences, Applied Meteorology, Marine Science, Marine Technology, Theoretical and Applied Mechanics, Optics, Materials Physics, Materials Chemistry, Environmental Science, Ecology, Psychology, Applied Psychology, Statistics, etc.
Engineering majors usually have:
Instrumentation, Energy and Power, Electrical Information, Transportation, Ocean Engineering, Light Industry and Textile, Aerospace, Mechanics, Biological Engineering, Agricultural Engineering, Forestry Engineering, Public Security Technology, Plant Production, Geology and Mining, Materials, Machinery, Food, Civil Engineering, Water Conservancy Surveying and Mapping Environment and Safety, Chemical and Pharmaceutical and other majors.
A well-known university in science and engineering in China.
Famous universities in science and engineering in China include Tsinghua University, Huazhong University of Science and Technology, University of Science and Technology of China, Harbin Institute of Technology, Tianjin University, Tongji University, Northeastern University, South China University of Technology, etc.
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Anonymous users2024-02-01The science and engineering majors are as follows:
1. Energy and chemical engineering.
2. Pharmaceutical Engineering.
3. Ship and Offshore Engineering.
4. Electromagnetic field and wireless technology.
5. Physics of Materials.
The explanation of science and engineering majors is as follows:
1. Energy and chemical engineering.
The Department of Energy and Chemical Engineering aims to cultivate engineering and technical talents who can be engaged in engineering design, production operation and management, technology development, and scientific research in energy and related fields. The main courses of energy chemical engineering include inorganic chemistry (experiment), physical chemistry (experiment), chemical reaction engineering, chemical basic technology experiment, chemical design, chemical design practice, electrochemistry basics, energy and chemical technology, introduction to energy chemical engineering, energy chemical engineering professional experiment, chemical environmental protection and safety, etc.
2. Pharmaceutical Engineering.
The Pharmaceutical Engineering major cultivates high-quality engineering and technical talents who can engage in scientific research, technology development, process and engineering design, production and service in pharmaceutical and related fields in an international context.
Pharmaceutical engineering students are able to apply mathematics, physics, chemistry, pharmacy, mechanics, and professional basic knowledge to analyze and solve pharmaceutical engineering-related problems; Able to propose solutions, engineering design and development for the problems involved in drug molecule design, synthesis reaction and process, equipment selection, workshop process design, and efficacy included in pharmaceutical engineering.
3. Ship and Offshore Engineering.
The major of Naval Architecture and Ocean Engineering is oriented to the fields of national marine safety and smart ocean, and is committed to cultivating academic, innovative and applied talents in the fields of marine vehicles, underwater robots and marine engineering.
Through four years of training, students will master the basic theories and professional knowledge of advanced mathematics, mechanics, machinery, automation, electronic information, computer, vehicle design and other disciplines, and have a solid mathematical foundation, a broad international vision, independent scientific research ability, a strong sense of teamwork and outstanding sense of innovation, and become outstanding and top-notch leaders in the field of national ship and ocean engineering.
4. Electromagnetic field and wireless technology.
The major of electromagnetic field and wireless technology is mainly set up to train senior talents in the field of radio frequency and wireless technology that are currently in short supply. Specializing in the theoretical, technical and engineering applications related to the generation, radiation, propagation, scattering, reception and processing of radio frequency wireless signals. It specializes in cultivating senior talents with electromagnetic field theory and engineering, RF, microwave circuit and system antenna design and R&D capabilities, and communication and radar technology foundation.
This major is a major in short supply for national defense.
5. Physics of Materials.
The major of Materials Physics cultivates leading talents who have a solid grasp of the principles and methods of physics in materials science, and can engage in scientific research, application, management and other work in the fields of materials, information, energy, aerospace and other fields. The major of materials physics is guided by the frontier directions of space materials science, intelligent materials physics, low-dimensional materials physics and other disciplines, so that students can master the basic principles and technologies of materials science, as well as solid physical theories and methods, and have the ability to pioneer and innovate in the field of materials physics science and technology.
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Anonymous users2024-01-31Science and engineering majors include science and engineering, and university engineering majors are the most, and nearly one-third of the majors belong to engineering majors. Common science majors include mathematics, physics, marine science, biological science, ecology, etc., and common engineering majors include surveying and mapping engineering, ship and ocean engineering, Internet of Things engineering, etc.
Science and engineering. 1. Major in energy and power engineering.
Energy and power engineering is committed to the utilization of traditional energy and the development of new energy, and how to use energy more efficiently. Energy includes not only traditional energy sources such as water, coal, and oil, but also new energy sources such as nuclear energy, wind energy, and bioenergy, as well as hydrogen energy, which will be widely used in the future. The power sector includes internal combustion engines, boilers, aero engines, refrigeration and related testing technologies.
Science and Engineering. 2. Major in mechanical engineering.
Mechanical engineering is an applied discipline based on the relevant natural sciences and technical sciences, combined with the technical experience in production practice, to study and solve all the theoretical and practical problems in the development, design, manufacture, installation, application and maintenance of various machinery. Mechanical engineering is a first-level discipline of engineering graduate education, and a field of engineering graduate education.
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Anonymous users2024-01-301. Mathematics: Mathematics and Applied Mathematics; Information and Computational Science.
2. Physics: Physics; Applied Physics.
3. Chemistry: Chemistry; Applied Chemistry.
4. Biological Sciences: Biological Sciences; Biotechnology.
5. Astronomy: Astronomy.
6. Geology: Geology; Geochemistry.
7. Geographical Sciences: Luhulu Geographical Sciences; resource environment and urban and rural planning management; Geographic information system.
8. Geophysics: Geophysical Sciences: Atmospheric Sciences; Applied Meteorology.
9. Marine Science: Marine Science; Marine technology. Oceanography.
10. Mechanics: Theoretical and Applied Mechanics.
11. Materials Science: Materials Physics; Materials Chemistry.
12. Environmental Science: Environmental Science; Ecology.
13. Qingqing Psychology: Psychology; Applied Psychology. Psychological counseling.
14. Statistics: Statistics. Computerized Accounting and Statistics, Statistics and Accounting, etc.
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The difference between MBA and administrative management is still relatively large Learning mainly depends on understanding and memorizing and reading news reports and comments There is nothing to do with the calculations I am also a graduate student in administrative management Let's put it this way, administrative management is still divided into different directions Each school is divided into different departments and enterprise departments The main research is the theoretical knowledge analysis method Public policy Including national revenue and expenditure knowledge, national policy With ** as the main research object The enterprise management involved is to apply the methods of enterprise management to the first management After graduation, it is still a better way to work in the ** department You can also become a teacher or continue your studies As for the school, it is good that there are Chinese University Peking University Fudan **Finance and Economics Of course, the administrative management of applying for science and engineering universities is smaller than the competition of liberal arts universities It depends on your own strength If the major is determined, choose a school well The subjects tested in each school are also different Some schools take out economics as a professional course in addition to the management professional course Some schools only take one professional course for assessment In addition, taking into account a series of issues such as distance, climate, etc., it is necessary to select a school comprehensively, and good luck!
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Chinese orators first recommended Mo Zhai (Mozi).
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