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It is still necessary to have a certain biological basis. But if you say that you don't learn well, then you still learn a little bit, so you don't know nothing. Most of the knowledge is self-taught, especially in college, as long as you like it, you can still learn it well.
Bioengineering is an emerging comprehensive applied discipline that began to emerge in the early 70s of the 20th century.
It refers to the theory and technology of biology (especially microbiology, genetics, biochemistry and cytology), combined with modern engineering technologies such as chemical engineering, machinery, and electronic computers, and making full use of the latest achievements in molecular biology to consciously manipulate genetic material, directionally modify organisms or their functions, create new species with ultra-distant traits in a short period of time, and then carry out large-scale cultivation of such "engineered bacteria" or "engineered cell lines" through suitable bioreactors. It is an emerging technology to produce a large number of useful metabolites or exert their unique physiological functions. ”
To put it simply, it's about making products out of biology (as I understand it).
Applications: "Bioengineering has a wide range of applications, including agriculture, industry, medicine, pharmacology, energy, environmental protection, metallurgy, chemical raw materials, etc. It will certainly have a tremendous impact on the political, economic, military, and life aspects of human society, and provide a bright prospect for solving the problems facing the world in terms of resources, environment, and human health.
University Major Courses:
1.Main courses: Organic Chemistry, Biochemistry, Principles of Chemical Engineering, Biochemical Engineering, Microbiology, Cell Biology, Genetics, Biochemistry, Molecular Biology, Genetic Engineering, Cell Engineering, Microbial Engineering, Biochemical Engineering, Downstream Technology of Bioengineering, Fermentation Engineering Equipment, etc.
2.The main practical teaching links: including teaching practice, production practice and graduation ** (graduation project), teaching practice and production practice are generally arranged for 10 weeks. Graduation** (design), generally arranged in 10-20 weeks.
3.Duration: 4 to 6 years.
4.Degree awarded: Bachelor of Engineering or Science.
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Yes, it doesn't matter how well you do in high school.
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<> Bioengineering is an engineering major, and the major foundation courses include:Three Mathematics (High Mathematics, Linear Algebra, Probability), Four Chemistry (Inorganic, Organic, Physicochemical, Analytical), Four Biology (Biochemistry, Cellular, Molecular, Microbiology).
There are also physics and various biochemistry experiments, and the professional courses are mainly engineering-oriented, such asPrinciples of Chemical Engineering, Biochemical Reaction Engineering, Biochemical Separation Engineering, etc.
It sounds interesting, but the content is mainly back-to-back, especially biochemical and molecular, and in no way inferior to the liberal arts.
So it's also a great test of your memorization ability, but the main thing isYour thinking skills need to diverge, after all, this is an engineering major.
1.Study and study abroad for a doctorate, experts, million-level treatment.
After finishing the graduate school entrance examination in undergrad, then continue to do experiments, or go to biotechnology companies. It depends on the direction of your graduate studies.
2.Bachelor's degree, laboratory experimenter, workshop technician, engineer, etc
My friend's senior's job is to do microbiology, biochemistry and other aspects of quality inspection, microbial culture and development, and genetics.
3.Change careers or test various preparations,
However, there are few civil servants and institutions majoring in bioengineering, and they can only apply for any major.
If you want to study bioengineering, you must first of allI like this subject and I like to do experiments.
Because the discourse of bioengineering is relatively miscellaneous, animals, plants, microorganisms, molecules, animal cell culture, plant tissue culture, as well as fermentation engineering, bioengineering equipment, separation engineering and so on.
Compared with animal medicine, food engineering, and grass medicine, I have learned moreBut no
There are professional and fine. But the experiments that need to be done are still essential.
The experience of the usual class is that the experimental class is very long and tired, and the preview report is written very much, and the credits are few, but the spirit of the experimental class is more relaxed.
For example, microbiology experiments are closely related to the content of microbiology courses, and various microbial culture operations can be cultivated.
The knowledge learned in the major of bioengineering is relatively broad, and the pertinence is relatively not so strong.
There are many classmates around me who have studied popular majors in college, but most of them have not worked in the field related to their majors, or have changed careers after a short time. So don't blame your major for being unpopular, but ask yourself if you have worked hard.
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No. The employment prospects of bioengineering majors can be said to be relatively good, and in the previous market, bioengineering majors can be engaged in a lot of jobs, such as working as R&D personnel in a pharmaceutical factory, or entering a bioscience company for R&D, etc.
Prospects for Bioengineering Majors:Many people think that the bioengineering major is not very good, but in fact, it does not mean that the major is bad or that they don't like it. Rather, it is the pressure of survival, and most people think that the reasons why bioengineering majors have no future are that it is difficult to find a job, low wages, and narrow employment opportunities.
But this is mainly because the development of bioengineering in China is relatively slow and the start is late, but this is not a reason why the bioengineering profession has no future. On the contrary, because of the vigorous development and support of the state, bioengineering is the future development direction, indicating that this major is very promising in the future!
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The bioengineering major is very good! After four years of professional study, I feel that the bioengineering major is very good, and I will continue to study in bioengineering in the future.
1. Personal feelings.
When I filled in the college entrance examination, I chose to major in bioengineeringBecause I like biology very much, so I want to study more deeply at university. After studying bioengineering for four years at university, I became more interested in biology, so I chose to study bioengineering. When studying, we can not only enter the laboratory, put on god-shaped lab coats, and conduct sophisticated genetic engineering experiments; We can also wear rope military training uniforms, enter the factory, and do some small hammers and other craft learning; We can also enter the technical workshop of the biofactory and become a skilled worker!
The four years of studying bioengineering in college were really interesting, full of all kinds of unexpected surprises!
2. Professional introduction.
Duration of study: 4 years.
Degree awarded: Engineering.
Curriculum: My bioengineering major is in the School of Chemical Engineering, so the professional curriculum not only includes the courses of biology, but also includes a lot of chemical engineering and chemistry content, such as physical chemistry, organic chemistry, chemical engineering principles, etc., and I have a wide range of knowledge. Bioengineering belongs to engineering, so there is less learning content about science, which can be seen in the curriculum setting, for example, there are some courses such as immunology, genetics and other courses with less or no class time, but there will be a lot of courses about the factory, such as fermentation engineering, biological separation engineering, biological factory design, etc.
Main practical teaching links: basic experiments, professional experiments, and open experiments.
3. Where the graduates go.
The 21st century is the century of biologyThe development of the bioengineering profession has great prospects in the future. For example, Chun Wang entered Tianjin University, Dalian University of Technology, Nankai University, Beijing Institute of Technology, and Beijing University of Chemical Technology for further study, so that he could get better job opportunities and higher salaries. Of course, after graduating from the bachelor's degree, you can also enter the pharmaceutical group and the condiment manufacturing group as an experimenter.
Overall,Bioengineering employment prospects are good.
At present, the epidemic situation in China is relatively severe, and vaccine research and development is also one of the employment directions of bioengineering, and it is believed that the future employment prospects of bioengineering are broad.
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The employment direction and modification prospects of bioengineering majors are as follows:
First, the direction of employment.
Students' expected career directions: bioengineering, biopharmaceutical, scientific researchers, civil servants, drug research and development, university teachers, and public institution personnel.
Career direction of graduates: bioengineering, biopharmaceutical, civil servants, public institution personnel, scientific researchers, sales representatives, software engineers, drug research and development.
Entrepreneurship of graduates in the fields of education, culture, sports and entertainment, scientific research and technical services, agriculture, forestry, animal husbandry, fishery, information transmission, software and information technology services, accommodation and catering, wholesale and retail.
2. Employment prospects.
This major has a wide range of employment fields. Graduates can find jobs in different types of positions in biology-related fields, such as high-tech enterprises in the fields of biomedicine, biochemical engineering, light industry, food and environmental protection engaged in the research, development, design, management and marketing of products, processes and equipment. This major requires more in-depth study, so many students choose to further their studies.
Professional Profile
Bioengineering is an undergraduate major in China's general nuclear engineering colleges and universities, and the basic study period is four years, and a bachelor's degree in engineering is awarded. The program is based on life science, food science and engineering, and aims to emphasize the cultivation of students' professional knowledge, basic skills, innovative thinking and scientific research ability, and pay attention to the basic training of applied research, engineering design and industrial management.
It involves the teaching and research content of bioengineering such as genetic engineering, cell engineering, protein engineering, enzyme engineering, fermentation engineering and bioreaction engineering, and requires students to master the basic theories and knowledge of biology, biochemical engineering, chemical engineering and other disciplines, and master the basic technologies of genetic engineering, enzyme engineering, biochemical reaction and catalytic engineering, cell culture and microbial fermentation engineering, biological separation engineering and engineering calculation.
The above content refers to Encyclopedia - Bioengineering.
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Congratulations on your acceptance into the Bioengineering program! Although you chose to do physics, biology and geography in high school, you may need to learn some basic chemistry when you enter the bioengineering major. Bioengineering is a comprehensive discipline that involves many fields such as biology, chemistry, and engineering, so chemistry plays an important role in it.
Here are some of the chemistry you might need to learn, as well as some knowledge of the difficulty:
1.Organic Chemistry: Organic chemistry is a very important part of bioengineering and deals with the structure, reaction, and synthesis of organic molecules. You may learn about the properties and reactions of organic compounds such as carbon compounds, fatty acids, amino acids, etc.
2.Biochemistry or Envy: Biochemistry studies the chemical processes within an organism, such as the catalytic mechanism of enzymes, metabolic pathways, etc. You will learn about various biochemical reactions in living organisms and their regulatory mechanisms.
3.Analytical Chemistry: Analytical chemistry is the science that studies the composition and properties of substances, including qualitative and quantitative analysis. In bioengineering, you may need to analyze and test samples.
4.Chemical Reaction Engineering: This part mainly involves reaction kinetics, engineering design and control of chemical reactions.
5.Chemical Technology: Chemical technology focuses on the production process of chemicals, and you may learn about chemical processes, reactor design, and more.
In terms of difficulty, chemistry, as a basic science subject, may find challenging for some people. But the level of difficulty also varies from person to person. For students who are interested in learning and working hard, mastering chemistry knowledge is not an insurmountable problem.
You will be able to actively participate in classroom learning, laboratory practice and academic activities to deepen your understanding and application of chemistry knowledge during your university years. In addition, do not hesitate to seek help from professors and classmates, participate in study groups or tutorial classes, and help improve the efficiency of your studies.
Most importantly, stay interested and motivated to learn, keep learning, and believe that you can overcome challenges and achieve excellent grades and achievements in the bioengineering major!
In fact, you don't have to be so nervous, you may just put too much pressure on yourself, relax, and the workbook or something wrong is a good thing, learn more lessons, don't miss it again, and the review before the exam is very important, I usually look at the notes, and then see that I am not very familiar with the will be memorized, and then 5.3 wrong questions to see more, but there is no need to do 5.3 in the second year of high school, you can try my method, maybe it will get better.
Is it from a textbook? I can hand call you.
There are no creatures in the first year of high school.
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