1. Cultivate logical thinking ability: Mathematics is a subject that needs strict logical thinking. Through the study of mathematics, we can cultivate our logical thinking ability and let us better understand and solve problems.
2. Improve the ability to solve problems: There are many complicated problems in mathematics that need to be solved, and various mathematical knowledge and skills need to be used for thinking and reasoning. Through the study of mathematics, we can improve our ability to solve problems and let us better cope with the challenges in life.
3. Enhance creativity: Mathematics is a subject that needs creativity and imagination. Through the study of mathematics, we can stimulate our creativity and imagination, let us better explore the unknown and create new achievements.
4. Broaden your horizons: Mathematics is a wide-ranging subject. Through the study of mathematics, we can broaden our horizons and better understand the laws and phenomena in the fields of nature, social science and humanities.
5. Improve comprehensive quality: Mathematics learning needs patience, carefulness, perseverance and perseverance. Through mathematics learning, we can cultivate our comprehensive quality and better adapt to the development and changes of society.
Examples of application of mathematics and thinking;
Physics: Many basic concepts and principles in physics need to be described and deduced by mathematics, such as Newton's second law and wave function in quantum mechanics. At the same time, the study of physics also needs creative thinking, such as Einstein's thinking experiment and imagination when he put forward the theory of relativity.
2. Economics: Many models and theories in economics need mathematics to model and analyze, such as supply-demand curve and economic growth model. At the same time, the study of economics also needs critical thinking, for example, the influence of various factors needs to be considered when evaluating the effect of policies.
3. Computer science: Many algorithms and data structures in computer science need to be described and analyzed by mathematics, such as sorting algorithm and graph theory. At the same time, the research of computer science also needs creative thinking, such as considering efficiency and practicality when designing new algorithms and data structures.
4. Biology: Many phenomena and processes in biology need mathematics to model and analyze, such as population growth and genetic inheritance. At the same time, biological research also needs creative thinking, such as considering the feasibility and safety when exploring new biotechnology and treatment methods.
5. Social science: Many researches in social science need mathematics to count and analyze data, such as social surveys and demographic statistics. At the same time, the research of social science also needs critical thinking, such as considering the influence of social and cultural factors when evaluating the policy effect.