物理是一门以实验为基础,以理解为关键,以精确为核心,以运用为目的的科学,随着课程的不断深入,物理知识从简单的物理现象的观察、理解到理论、公式的融会贯通,物理实验也会相应的由简单到复杂,通过实验的方式对抽象的概念进行理解,从而探寻这些物理现象的本质,才能最终达到能够使用数据对物理现象进行精确解释和运用。而在这个过程中仅仅是记忆概念、公式是远远不够的。所以在物理的学习中加入数学理论和方法,能够充分理解物理知识和物 Physics is an experiment-based, understanding as the key to precise as the core, to use for the purpose of science, as the curriculum continues to deepen, physical knowledge from the simple observation of physical phenomena, understanding of the theory, the mastery of the formula , The physical experiment will also be from simple to complex, experimentally understand the concept of abstraction to explore the nature of these physical phenomena, in order to finally be able to use the data to accurately interpret the physical phenomena and use. In this process, only the concept of memory, the formula is not enough. So in the study of physics by adding mathematical theory and methods, to fully understand the physical knowledge and material