This two-term general physics course includes mechanics, heat, electromagnetics, optics and modern physics. We have stressed those basic concepts and principles that are common to both classical and quantum physics. To deepen understanding of physics knowledge, we have included numerous applications of physics in engineer, technology, biomedical science, and familiar everyday phenomena. We encourage teachers to select teaching materials to be guided by their own interest and circumstances and some topics in relativistic and quantum physics are always included.
Physics
物理(Physics)是一门自然科学,也是绝大多数科学的基础学科,注重于研究物质、能量、空间、时间,尤其是它们各自的性质与彼此之间的相互关系。从广义来说,物理学探索分析大自然所发生的现象,以了解其规则。物理专业主要分应用物理、生物物理、原子物理、核物理、粒子物理、量子物理、凝聚态物理、等离子物理、高能物理、天体物理与宇宙学等多种专业分支。
Biological / Biomedical Science
Mathematics
Statistics
Computer Engineering
Computer Science
Chemistry
Chemical Engineering
Environmental Science
Environmental Engineering
Biomedical/Bioengineering
Architecture
Electrical Engineering
Medicine
Materials Science and Engineering
Urban Planning
Aerospace / Aeronautical / Astronautical Science and Engineering
Agriculture
Industrial Engineering
Mechanical Engineering
Nuclear Engineering
Civil Engineering
Pharmaceutical Sciences
Biological Agricultural Engineering
Public Health and Preventive Medicine
Geology
Oceanography
Atmospheric Science
Agriculture Engineering
Environmental Construction and Equipment Engineering
Water Resources Engineering
Mechanical Dynamics
Microcomputer Principle and Application
Modern Techniques for Materials Analysis
Nuclear Fuel Cycle
soil mechanics
Solid State Physics
Computer Network Technology
Electromagnetic Fields and Magnetic Waves
Fundamentals of Materials Science
General Physics Lab
Isotopic Geochemistry
Spinning Science
Toxicology
Architecture Acoustic
building Materials
Hydraulics
Medical Physics
Principles of Biomedical Engineering
Basis of Control Engineering
Engineering Mechanics
Introduction to Materials Physics
Biosystem modeling and simulation
Electrical Machinery
Semiconductor Physics
Engineering Thermodynamics
Heat and Mass Transfer
Luminous Environment in Architecture
Nanomaterials and Nanotechnology
Nuclear Physics
Structural Mechanics
Fluid Mechanics
Introduce to Nuclear Fusion Engineering
Heat Transfer
Mechanics of materials
Sensors Principle and Technique
Engineering Materials
Food Toxicology
Hydraulic and pneumatic Driving
Principles of Food Engineering
Textile Mill Air Conditioning
Theoretical Mechanics
Atomic Physics
Biophysics
力热电磁
爱因斯坦
物理实验
原子结构
矢量 : 矢量是数学、物理学和工程科学等多个自然科学中的基本概念,指一个同时具有大小和方向的几何对象,因常以箭头符号标示以区别于其它量而得名.直观上,矢量通常被标示为一个带箭头的线段.线段的长度可以表示矢量的大小,而矢量的方向也就是箭头所指的方向.物理学中的位移、速度、力、动量、磁矩、电流密度等,都是矢量.与矢量概念相对的是只有大小而没有方向的标量.
质点 : 质点就是有质量但不存在体积或形状的点,是物理学的一个理想化模型。在物体的大小和形状不起作用,或者所起的作用并不显著而可以忽略不计时,我们近似地把该物体看作是一个只具有质量而其体积、形状可以忽略不计的理想物体,用来代替物体的有质量的点称为质点
理想气体 : 理想气体是指忽略气体分子的自身体积,将分子看成是有质量的几何点;假设分子间没有相互吸引和排斥,即不计分子势能,分子之间及分子与器壁之间发生的碰撞是完全弹性的,不造成动能损失。