1. Establish a math learning plan: make an orderly math learning plan and study and practice persistently according to the plan.
2. Strengthen basic knowledge: Mathematics is a step-by-step subject, which requires a solid grasp of basic knowledge. We can strengthen basic knowledge through classroom study, teacher guidance and textbook review.
3. Intensive reading of textbooks and reference books: In addition to classroom study, intensive reading of textbooks and reference books is helpful for a deeper understanding of mathematical knowledge and improvement of mathematical literacy.
4, do a lot of exercises: complete a lot of exercises, you can deeply understand the knowledge points of mathematics, master the skills and methods of solving problems.
5. Cultivate your own mathematical thinking: Mathematics is a subject that needs thinking. Through mathematical thinking training, such as reading more mathematical problems, thinking more about learning methods and trying to explore new knowledge and methods in the field of mathematics, you can stimulate your interest and thinking ability in mathematics.
6. Mastering problem-solving skills and methods: Different types of problems have different problem-solving skills and methods. Mastering these skills and methods can help us solve problems with half the effort.
7. Successful experience: In the process of learning mathematics, we often encounter some problems. At this time, we should think and be patient. As long as you successfully solve a problem, you will gain a sense of accomplishment and self-confidence, and increase your interest and enthusiasm for mathematics.
8. Immersive learning: persist for a short time and sink completely in the process of thinking and learning. Immersive learning can help you master knowledge faster and achieve unimaginable results.
Application of mathematics
1, Physics: Mathematics is the language of physics, and many equations and models in physics theory depend on mathematics, such as calculus, vector, linear algebra and so on. All physical and natural laws can be expressed in mathematical language.
2. Finance: Many concepts and methods in finance, such as stock price fluctuation and return on investment, depend on mathematics, such as random variables, probability distribution and statistics. Mathematics can help finance discover laws, conduct risk analysis and establish models.
3. Computer science: Computer science pays attention to algorithms and data structures, and discrete mathematics and combinatorial mathematics in mathematics are important foundations of computer science. In addition, graph theory, model theory and pattern recognition all belong to the interdisciplinary subjects of mathematics and computer science.
4. Engineering: Many design and optimization problems in engineering require mathematical knowledge, such as calculus, matrix theory and linear programming. Mathematics can help engineers better understand and master engineering problems and phenomena, and then study and design projects.
5. Economics: Various theoretical models and analytical methods in economics, such as supply-demand relationship and Markov chain, all depend on mathematics. Mathematics can help economists analyze economic phenomena, predict economic trends and optimize them.