How to arrange physics self study circuit?

Let's start with mechanics, which is the foundation. Then heat, light, electromagnetism, modern physics. There is no order required, and you can look at it crosswise. It is recommended to read "Feynman Lecture Notes on Physics" or "New Concept Physics" edited by Zhao Kaihua.

But you have to look at the college math books first, because the method of college physics is not the same as that of high school, and calculus is more demanding. College math books are basically the same, so I won't recommend them to you.

If you want to continue learning after all this general physics, you should first look at mathematical physics methods. It is recommended to look at Liang Kunmiao's to facilitate self-study.

Then we started looking at the four major mechanics, theoretical mechanics, quantum mechanics, electrodynamics, and thermodynamics. Theoretical mechanics look at Nanda Liang Kunmiao's. Quantum looks at Peking University once strict and very well written.

That's basically it. After that, there are some professional books.

Oh, that's great, and I started doing college physics when I was in high school, actually college physics books.

I'd suggest you go to a bookstore near your home and buy a physics book, which should be cheap, and there's an answer book, which is very useful, at least you have to know if you're doing it right.

The most important thing for college physics is to read books, which is a little different from going to high school, in fact, when you go to college, you are also self-taught, so you usually have to read the book, draw the formulas, theorems, reasoning, etc. in the book, and after reading each chapter, you have to do the after-class questions, which is also very important, and there are the example problems in the book, this is very important, you must make your own examples, and you will see the sample questions, and you will be doing the post-class questions, basically college physics is fine.

In physics, you can take a good look at the competition book, and many of the high school competitions are college knowledge.

However, in order to study physics well in college, it is necessary to learn advanced mathematics well, such as differentiation, integration, limits, etc.

I don't know what you mean by the physical ability of the university, but hopefully it is the logical ability and the ability to innovate, not just knowledge.

You have to learn when others are learning, and you have to learn when others are sleeping and playing.

1. It is a bit difficult to learn physics on your own in high school.

2. It is essential to do a lot of questions.

3. Pay attention to basic concepts and start from concepts - > physical laws, theorems and formulas--- comprehensive application of theorems and formulas, that is, problem solving.

4. Choose a comprehensive book with knowledge combing, detailed explanations of example questions and training topics.

5. Pay attention to physical models and accumulate problem-solving methods.

If you are a student in Shanghai, it is recommended to buy the two books "Physics for Honor Students" and "New Ideas Counseling and Training".

Read books and do questions; Do the questions and read the book.

A mistake that is easy to get into by self-study physics is not to follow the gradual process, and to start directly from the origin of the universe, the movement of celestial bodies, and the elementary particles.

It's better to start with Newtonian mechanics first, and in Newton's world, trigonometric functions can be a bucket of paste.

Then there is the introduction to electromagnetism, electric field, magnetic field, electromagnetic force or something, this can be equivalent to the gravitational field and gravity, for people who have mastered the basics of Newtonian mechanics, it is easy to change the concept.

Now that you have learned about electromagnetic force, let's study electric currents by the way. Voltage, resistance, current, capacitance, and inductance, although they belong to another field, are closely related to electromagnetic forces.

I don't think there's any need to study the basics of optics......If you don't feel at ease, you can also take a look at it, and it will be useful in the future.

When the foundations of Newtonian mechanics and electromagnetism are almost studied, it will be more difficult to go up.

The advance of Newtonian mechanics is the special theory of relativity, the advance of electromagnetism is Maxwell's field theory, and then the advance of optics is quantum mechanics (this is not accurate). Quantum mechanics can be derived from optics, but quantum mechanics actually has no inheritance relationship with optics).

But there is no need to worry, at this time, you can relax by watching popular science articles like "A Brief History of Time". "A Brief History of Time" and "The Universe in the Shell" have a brief introduction to the above, and they are very interesting, I have to say that they are much better than those written by the Chinese. By the way, I also have a little bit of an intuitive understanding of elementary particles, because the next problem needs this.

In fact, for a hobbyist, reading "A Brief History of Time" is already a good level, if you really want to continue researching, all aspects of energy will be more expensive, and at this time you need some mathematics beyond the high school level, while reading "A Brief History of Time" while teaching yourself calculus, linear algebra and probability theory. This consumes a lot of time.

...... further backI'm sorry that's all for my level, and I'll have to consult with my physics classmates in the future.

Also, thermodynamics doesn't have much to do with other parts, and I think thermodynamics is quite troublesome and boring. If you are interested, you can study it by yourself while watching "A Brief History of Time". In general, for thermodynamics, mastery of the second law of thermodynamics is sufficient.

In general, thermodynamics is of great significance to chemistry.