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My classmate, the first and second years of high school were very poor in physics, and she didn't like physics either, but in order to go to a good university in the third year of high school, she kept doing exercises, memorizing exercises, and memorizing physics as a liberal arts, and she also succeeded. Although she only knew what it was and why it was, she also achieved her goal.
2.The secondary is the method of learning physics. Because no one has almost had their own set of methods, but they were more or less lacking.
First of all, I will introduce the first type: learning physics is not like the liberal arts can just keep taking notes and listening to the teacher, you have to think more, the general teacher's practice is to only talk about a general idea, and then check and fill in the gaps through the exercises.
One of my classmates, the first and second years of high school were very poor in physics, and she didn't like physics, but in order to go to a good university in the third year of high school, she kept doing exercises, memorizing exercises, and memorizing physics as a liberal arts, and she also succeeded. Although she only knew what it was and why it was, she also achieved her goal.
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Pay attention to the lectures in class, you don't need to take many notes, and you need to choose the key points. Some of my classmates' notes actually have some basic concepts in them, and I was dizzy, I really thought it was liberal arts. In the process of writing, you should pay attention to thinking and understanding, don't engage in superficial work, write well, comfort yourself, and think that you are learning.
The reason why some college students spend the same effort as others is that they still can't learn well, they only write notes, and the amount of practice questions is small, so it's strange to learn well. If you still don't understand something after class, don't keep it, and don't be afraid to ask the teacher. Like me, whether it is just learning physics or the third year of high school, whether it is poor in physics, or when physics becomes my strong point in the end, I always keep this point of asking, so the physics teachers who have taught me like me the most, and my classmates think that the teacher is not just teaching me personally.
The best thing is to do the homework assigned by the teacher, or your own information, and check and fill in the gaps.
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The major of physics cultivates high-level professionals who master the basic theories and methods of physics, have a good mathematical foundation and experimental skills, and can engage in scientific research, teaching, technology and related management in physics or related scientific and technological fields.
Students in this major mainly learn the basic laws of material motion, receive training in scientific research and technological development using physical knowledge and methods, obtain preliminary training in basic research or applied basic research, and have good scientific literacy and certain scientific research and application development capabilities.
Direction of employment. After graduation, students of this major can engage in teaching in colleges and universities, or engage in theoretical research, experimental research, and technology development and application in research institutes. In addition, you can also engage in technology development and application research in the fields of materials science and engineering, electronic information technology, etc.
Physics students with a solid foundation in physics theory and experience in applications can become experts in many fields of engineering and technology. China trains about 12,000 undergraduate applied physics professionals every year. Majors that intersect with this major include physics, engineering physics, semiconductors and materials, etc.
In terms of talent demand, China's demand for applied physics majors is still in short supply. At present, many physics research topics are still basic, often require a large amount of first-class policy investment, and it is difficult to achieve industrialization, which should be mentally prepared for those who plan to engage in applied physics research after graduation. However, in recent years, with the rapid development of science, many cutting-edge technologies researched in the physics industry have been quickly applied, such as neutrino communication, which is one of the hot topics at present.
With the increasing interdisciplinarity and subdivision of disciplines, the degree of knowledge updating is very fast. Talents with basic majors such as applied physics can get more and more attention from various industries due to their strong plasticity and solid basic knowledge.
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Graduates of the Applied Physics major are mainly engaged in research, teaching, technology development and related management work in physics or related scientific and technological fields. Scientific research includes the research and application of frontier physical issues, technology development includes new physical application materials such as semiconductors, and the development of applied instruments such as medical instruments, biological instruments, and scientific research instruments. The employment scope of the applied physics major covers the entire field of physics and engineering, integrating physical theory and practice, and interpenetrating with multiple disciplines.
In addition, the proportion of graduates who go abroad and go to graduate school generally accounts for about half of the total number of graduates.
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Undergraduate students who have graduated from the Department of Physics are directly involved.
In universities or research institutes, students with a physics background have strong thinking skills and can work in finance and economics, and now there are many alumni of the Department of Physics of Peking University on Wall Street, and you can also engage in many industries such as biological industry, electronics, computers, mathematics, etc., in short, the prospects for future employment of graduates of the Department of Physics are very broad, much stronger than engineering students. Hehe, I'm also from the physics department.
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Physics, like mathematics, has a wide range of applications, especially in scientific research in the future.
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Physics can be employed: physics teacher, physics professor, engaged in electrical circuits.
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Major in PhysicsHe studied Advanced Mathematics, Mechanics, Thermal, Optics, Electromagnetism, Atomic Physics, Methods of Mathematical Physics, Theoretical Mechanics, Thermodynamics and Statistical Physics, and ElectrodynamicsQuantum mechanics, Solid State Physics, Structures and Physical Properties, Introduction to Computational Physics, etc.
Physics is the study of the basic form, properties, motion and transformation, and internal structure of matter in the universe, and the content of physics is constantly expanding and deepening. With the development of various branches of physics, people have discovered different forms and differences in the existence of matter.
Knowledge and skills that should be possessed:1. Master the basic theories and methods of mathematics, and have a high level of mathematical accomplishment.
2. Master the solid and systematic basic theories of physics and a wide range of basic knowledge and basic experimental methods of physics, and have certain basic scientific research.
Capabilities and application development capabilities.
3. Understand the general principles and knowledge of similar majors.
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Physics: basic discipline knowledge of mathematics, computer, electrical engineering and electronics, and the history of the development of physics. Learn the basic laws of material motion, receive training in scientific research and technology development using physical knowledge and methods, and obtain preliminary training in basic research or applied basic research.
Training Objectives of Physics Major: This major mainly cultivates professionals engaged in the teaching and research of physics and related frontier disciplines, and also cultivates interdisciplinary talents who can apply physics to various fields of technology and society.
After study and training, students of this major should have the foundation for further study in physics and related disciplines, or meet the requirements of teaching, scientific research, technology development and management.
Postgraduate Directions: The main postgraduate directions for physics graduates include theoretical physics, particle physics and nuclear physics, atomic and molecular physics, plasma physics, condensed matter physics, acoustics, optics, radio physics, and physics-related fields such as astrophysics, chemical physics, biophysics, atmospheric physics, marine physics, geophysics, etc.
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It's bad, I'm studying physics, and most of my classmates are not related to their majors, but sales, but it's more common. If you want to say that it is related to the major, you can go to an educational institution to teach mathematics or physics, accumulate some experience and then go to the public school teacher, or enter the optoelectronics factory, precision instrument manufacturing factory, are more right, some students, after working for a period of time and then come back to graduate school, according to the feedback of graduate students, in school is indeed much easier and more free than work.
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First of all, it is very good for you to understand this truth in your freshman year, and I believe that in the next few years, you will be clear about your life and career development direction. Hard work will pay off. Now the employment rate of physics is still relatively high, because the supply and demand of occupations are more balanced, you according to your own interests, in a certain direction of the major, in-depth research is better, if you can, you can take a double degree in the second year, to assist your major, learn more knowledge!
If you're worried about employment, you can broaden your knowledge. Or you can choose to go to graduate school, and then it is also good to work as a teacher after graduation.
Develop your life according to your own interests, after all, physics majors are not as difficult to find a job as economics and management now, and it is impossible for excellent people to find a job!
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Become a teacher, go to graduate school, go abroad, go to graduate school.
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Another thing that you have always forgotten is that many students in the Department of Mathematics did not later transform into computers, and computers are of course also objects that you can transform, but I think if you transform into electronic communications, it will be faster
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After graduation, physics students can engage in teaching in colleges and universities, or engage in theoretical research, experimental research, and technology development and application in research institutes. In addition, you can also engage in technology development and application research in the fields of materials science and engineering, electronic information technology, etc.
This major cultivates high-level professionals who master the basic theories and methods of physics, have a good mathematical foundation and experimental skills, and can engage in scientific research, teaching, technology and related management in physics or related science and technology fields.
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Who said it's hard to get a physics major? Physics is the best place to work! If you're majoring in physics, I think you should study astrophysics, and now there is a shortage of astrophysicists in China, and if you work hard, you might get hired by the Chinese Academy of Sciences.
So don't be afraid, physics majors are really good for employment. Step up your game!
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If you have a strong specialization, go to a graduate school, but if you are not very professional, but you have a wide range, you can consider becoming a teacher.
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Generally, there are teachers, electricians, entering high-tech companies to engage in scientific research, and working in nuclear power plants, these are just part of social employment, in fact, to mathematics, physics these majors, seemingly unpopular, in fact, the employment is very wide, as for what kind of job to find, it depends on your own ability and opportunities.
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Universities with space physics majors: Peking University, Wuhan University, University of Science and Technology of China, Space Physics.
Business training objectives: This major cultivates professionals who have a solid foundation in mathematics and physics, have the basic knowledge of modern physics and space physics, master the basic skills of electronics and space exploration experiments, are familiar with computer applications, obtain preliminary training in scientific research, and can engage in scientific research, teaching and business work in space physics, space exploration, space environment, physics and other adjacent disciplines.
Business training requirements: Students in this major mainly learn the basic knowledge of physics and mathematics and the basic knowledge of space physics.
Graduates are expected to acquire knowledge and competencies in the following areas:
1. Have a solid foundation in mathematics and physics;
2. Basic concepts of modern physics, plasma physics and fluid physics; 3. Master the basic knowledge of space physics and space environment and major related disciplines;
4. Possess the basic skills of modern physics and electronics experiments, understand the basic principles and methods of space exploration, and have the knowledge and ability to flexibly apply computer technology;
5. Gain an understanding of new developments in space science;
6. Have certain scientific research and practical work ability.
Main courses: Advanced Mathematics, General Physics and Experiments, Theoretical Physics and Modern Physics Experiments, Methods of Mathematical Physics, Principles and Applications of Microcomputers, Computer Language Programming, Fluid Mechanics and Plasma Physics, Space Physics (including Upper Atmosphere Physics, Ionospheric Physics, Magnetospheric and Interplanetary Physics, etc.) and Principles of Space Exploration.
Main practical links: station observation practice, graduation**.
Duration: 4 years.
Graduates are suitable for basic research work in space physics and space environment, and can also be engaged in the research and forecasting of radio wave propagation and communication conditions, as well as the research and forecasting of geomagnetic and high-quality activities.
space technology work such as guidance, navigation, space communications, environmental assurance for space flight, reconnaissance and remote sensing, etc., in the field of national defense; School teaching and research work in astrophysics, meteorology, physics, space physics, geophysics, etc.
Degree awarded: Bachelor of Science.
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I think it will be difficult for girls to find a job after studying engineering, so it is better to study international trade and finance, so that your English and mathematics will not be wasted, and it will be very good for future development.