photon. mesons,antiparticles,neutrinos,the Quark model,Quantum Electrodynamics and Quantum Chromodynamics. 2.Application of concepts and rules including Relativistic Kinematics, Symmetries,Bound States,The Feynman Calculus,Quantum Electrodynamics, Electrodynamics and Chromodynamics of Quarks,Weak Interactions and Gauge Theories. 3)Corresponding relationship between curriculum objectives. graduation requirements and curriculum content Table I. Correspondence between course obiectives.course contents and graduation requirements Course Corresponding course Corresponding objectives content graduation requirements Graduation requirement 2:master the basic knowledge,basic physical experiment methods and experimental skills related to mathematics Chapter 1 Historical and physics,and have Introduction to the the ability to solve Elementary Particles problems,explain or Chapter 2 Elementary understand physical Particle Dynamics aws by using physical Course theories and methods objective Chapter 7 Quantum Electrodynamics Graduation requirement 3:understand the Chapter 8 Electrodynamics frontier and and Chromodynamics of development of physics Quarks the physical thought new technology,and be familiar with the impact of new discoveries. theories and technologies in physics on society. Graduation requirements 8:have the awarenessphoton, mesons, antiparticles, neutrinos, the Quark model, Quantum Electrodynamics and Quantum Chromodynamics. 2. Application of concepts and rules including Relativistic Kinematics, Symmetries, Bound States, The Feynman Calculus, Quantum Electrodynamics, Electrodynamics and Chromodynamics of Quarks, Weak Interactions and Gauge Theories. 3) Corresponding relationship between curriculum objectives, graduation requirements and curriculum content Table I. Correspondence between course objectives, course contents and graduation requirements Course objectives Corresponding course content Corresponding graduation requirements Course objective 1 Chapter 1 Historical Introduction to the Elementary Particles Chapter 2 Elementary Particle Dynamics Chapter 7 Quantum Electrodynamics Chapter 8 Electrodynamics and Chromodynamics of Quarks Graduation requirement 2: master the basic knowledge, basic physical experiment methods and experimental skills related to mathematics and physics, and have the ability to solve problems, explain or understand physical laws by using physical theories and methods. Graduation requirement 3: understand the frontier and development of physics, the physical thought in new technology, and be familiar with the impact of new discoveries, theories and technologies in physics on society. Graduation requirements 8: have the awareness