College freshman, majoring in electronic information engineering, male, ask how to spend the freshma

The freshman courses are all the same, they are all compulsory. But you must learn English well and use it everywhere in the future. I suggest you find a partner, it's hard to find a sophomore and above.

See for yourself! You can travel and get around. Go to the library more often, there are good girls.

Don't go to the Internet café all the time, it's the most wasteful time. Participate in more sports activities and join clubs. I wish you a great day at university.

Girlfriend is beautiful!

Learn the basic courses well, participate in various competitions, usually buy more complete sets of electronic device welding and welding, and participate in clubs, classes and other activities. When I got to my sophomore year, I thought about something else.

Students in electronic information engineering need to use computers in their first year.

Electronic information engineering is an undergraduate major in ordinary colleges and universities, which is an electronic information major, with a basic study period of four years, and a bachelor's degree in science and engineering is awarded.

The major of electronic information engineering cultivates senior engineering and technical personnel and management talents who have the basic knowledge and application ability of electronic technology and information systems, and can be engaged in the research, design, development, application and management of various electronic equipment, information systems, and radio and television systems.

Talent development:

1. Basic knowledge of mathematics and natural sciences required for scientific research, engineering development and design in the field of electronic information.

2. Master the basic theories and technologies related to electronic information, and have the basic computer theory, application and development capabilities; Have systematic engineering practice or scientific research training experience related to electronic information majors, understand production processes, equipment and manufacturing systems, and understand the development status and trends of electronic information majors.

3. Be proficient in the use of commonly used electronic instruments and meters, have the ability to design and implement engineering experiments in the field of electronic information, and be able to analyze the experimental results; Have the basic ability to analyze, propose solutions and solve theoretical or engineering practical problems in the field of electronic information, and can participate in the design, operation and maintenance of related systems.

Do I need to buy a computer in my freshman year? The senior's personal tragic experience tells you the answer, it's too real!

Computers have basically become the main item in life now, so if you are not short of money, you can buy one, but remember, although it is the main item of daily life, it is not a necessity.

Theoretically, there is no need to bring a computer in the freshman year. There are two considerations (personal opinion) that the school stipulates that freshmen are not allowed to bring computers: 1

Even if there are courses that need to be operated by a computer, such as university computer basics, the school will arrange corresponding computer laboratory courses for students to operate. So there is no need for additional exercises with a personal computer; 2.A considerable number of students have been indulging in games or other recreational activities since they brought their personal computers, which not only do not bring much help to their own learning, but on the contrary, seriously affect their learning.

The freshman year is the first year of college, and the school actively encourages everyone to get to know more things and lay a solid foundation for their future college career, so there are restrictions on the factors that may affect everyone. Based on this, many universities do not encourage first-year students to bring computers, or do not turn on the Internet for first-year students, even if they bring computers, they cannot access the Internet. When I was a freshman, it was the same in our school.

I'm a computer science major, but I don't think the school has any impact on this measure, so I hope you can understand the school's measure.

The most important circuit analysis ability is modular, digital, and radio frequency, and these basic software aspects of protel proteus ads microcontroller should also be mastered Personal feeling that in this era that cannot be separated from computers, learning to program is very useful. I hope the landlord will adopt it.

I am a student majoring in electronic information engineering who graduated last year, I hope my answer will be helpful to youElectronic information engineering involves a wide range of content, the freshman course is only a basic course, to be honest, advanced mathematics and college physics theory is very shallow (you will experience it after studying the professional course), these courses in the freshman year are just to lay an analytical foundation for your subsequent professional courses, such as the theory in the circuit principle and the theory in the signal system involves a lot of advanced mathematics.

As for the advanced mathematics and college physics you mentioned, you can learn to understand what the teacher is talking about in each class, and I don't know what the situation is in the industry now, but it is nothing more than the application of circuit basics and analog circuits and digital circuits, so I think you have to recognize your future development direction during college, whether it is hardware or software, you decide which one you want to focus on, I chose to focus on hardware during college, and now I am engaged in hardware research and development in General Motors (GE) after graduation.

There are many electronic professional courses, and you should choose to focus on the development of a certain type of course, and do not learn too much and not learn a certain type of course. I've heard of physics and electronics, but I don't know much about it, so that's all I have to say, I wish you a happy college life!

I suggest to learn high mathematics and college physics well, I am now graduating from my senior year (I am also majoring in electronic information engineering), I feel that those sophomore to senior professional courses are easy to get started if high mathematics is good, not to mention that mathematics is the most basic major in physics (electronic information engineering is physics), if you learn mathematics well, college physics is also easier to learn, after all, physics requires a lot of calculations. And if you don't like math very much, then you should also study the courses arranged by the school well, and you must attend and listen well to every class.

Higher mathematics is basically useful for every course in the future, electronic information engineering mainly focuses on signals and systems, mechanics is used less, if you are interested, you can study in depth, after all, there is no harm in mastering a knowledge.

Higher mathematics and physics are very important to the future "Analog Circuits", "Signal Processing", etc., because these need to use the knowledge of advanced mathematics to do operations, so advanced mathematics and physics are the foundation and must be learned well.

You first read all the temperature answers, many of which are guided hands-on experiments. What specific questions will be discussed. All right?

Like you, I'm also more confused, although the class is also very serious listening, every day in the laboratory learning, from 51, to 430, and then to arm, but my own exploration is really very hard, the efficiency is not good, the competition also participated, but I don't know if these are useful, what will be used when looking for a job, just learn first, maybe these are all in vain, but what can I do, the road of life is originally to explore in confusion, do your best, the direction of this major is very wide, I'm mainly attacking arm, of course, I haven't left anything behind, so be prepared in all aspects, it's safer, I wish you success!

I also study electronic information, listen to what you said, first of all, I have to admire your learning ability, the software that we should learn in our major is basically finished, this can show that your theoretical foundation has been quite solid, if you really want to enter the school laboratory, you can boldly go to the teacher, with your strength I think there is no problem. Speaking of hands-on ability, I used to think it was quite important for our major, but now I look at those graduate students and understand that you can also develop completely in the direction of software, and there is no requirement for hands-on ability. We have a lot of professional development directions, the popular ones are ARM embedded development, DSP and FPGA, they have little need for hardware and hands-on ability, you can buy a development board to learn it, but the good ones are a bit expensive, thousands of them.

In addition, C++ has to study hard, this is very important, graduate school is not a problem for you, when the time comes, find a good mentor and you will have the opportunity to exercise and develop.

That's all there is to it, if there are any questions, you can ask again.

I also studied electronics, now in my senior year, I personally think that more certificates, this major is more saturated, but at least there are development prospects, your state is also a good student, don't be confused, the actual operation plus the certificate will definitely pay off.

First of all, why are you preparing for? If you're preparing for a job search, here are a few tips:

1. Learn professional courses, especially professional basic courses, digital, electromodel, electricity, signals and systems.

Wait a few doors. 2. Master a software language, C language you are sure.

Let's learn. Be sure to work hard to learn it well, there is a skill that will make it easy for you to stand firm in your work.

3. Make good use of the school laboratory, cultivate your own ability, and improve your problem-solving ability.

The above are the three main points, and they are also my summary of my university after work. Not much else, good luck!