Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Independent Study of Large-scale Dynamics	◎		◎		◎
Independent Study of Air-sea Interaction		◎	◎		◎
Independent Study of Atmosphere Convection	◎				◎
Independent Study of Dynamical Modelling	◎				◎
Independent Study of Boundary-layer Models	◎			◎	◎
Independent Study of Meso-scale Dynamics	◎				◎
Independent Study of Atmospheric Remote Sensing	◎	◎			◎
Independent Study of Typhoon Dynamics	◎				◎
Independent Study of Radar Meteorology	◎				◎
Independent Study of Intraseasonal Oscillations	◎	◎	◎		◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Special Topics on Dynamical Modeling	◎
Independent Study of Monsoon and Convection	◎		◎		◎
Independent Study of the Large Scale Numerical Simulation	◎	◎	◎		◎
Independent Study of East Asia Monsoon	◎	◎	◎		◎
Independent Study of Cloud Model	◎			◎	◎
Enso	◎	◎	◎
Special Topics on Synoptic Meteorology	◎
Independent Research on Mesoscale Meteorological Modelling	◎
Independent Study of 1d Air-sea Model Coupling	◎	◎	◎		◎
Special Topics on Numerical Weather Prediction	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Climate Simulation of General Circulation Models		◎	◎
Independent Study of Cloud Radiative Forcing	◎			◎	◎
Special Topics on Atmospheric Convection	◎				◎
Satellite Data Analyses and Applications		◎
Independent Research on Satellite Remote Sensing	◎	◎	◎	◎	◎
Independent Research─tropical Climate System Modeling			◎		◎
Climate Modeling with Simple and Intermediate Models		◎	◎		◎
Independent Study of Meteorological Statistical Forecasting		◎	◎		◎
Special Topic on ENSO, Monsoon and Global Warming			◎		◎
Special Topics on Clouds and Environment	◎	◎	◎	◎	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Machine Learning in Atmospheric Thermodynamics	◎	◎	◎	◎	◎
Independent study of orographic precipitation	◎				◎
Independent Study of Typhoon Rainband	◎				◎
Independent Study of Orographic Precipitation(Ⅱ)	◎	◎			◎
Independent Study of Typhoon Rainband (Ⅱ)	◎	◎			◎
Independent Study(Ⅴ)	◎	◎	◎	◎	◎
Independent Study （6）(Ⅵ)	◎	◎	◎		◎
Independent Study 9	◎	◎	◎	◎	◎
Independent Study(ⅩⅢ)	◎	◎	◎	◎	◎
Independent Study (15)(Ⅴ)	◎	◎			◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Independent Study 16	◎	◎	◎		◎
Cloud and Moisture in Large-scale Motion		◎	◎
Independent Study 23(Ⅲ)		◎	◎		◎
Independent Study 24	◎	◎	◎	◎	◎
Independent Study 25(Ⅴ)	◎	◎	◎	◎	◎
Independent Study 26			◎		◎
Independent Study 27	◎	◎	◎	◎	◎
Independent Study 28	◎	◎	◎	◎	◎
Independent Study 29			◎	◎	◎
Advanced Atmospheric Dynamics	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Advanced Numerical Prediction	◎
Dynamic Climatology			◎
Numerical Methods Used in Atmospheric Models	◎
Quasi-balanced Dynamical System in the Atmosphere	◎
Special Topics on Aerosol Particles				◎	◎
Mesoscale Meteorology	◎
Special Topics in Synoptic Meteorology	◎
Monsoon Meteorology			◎
Advanced Synoptic Meteorology	◎
Mesoscale Meteorological Modeling	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Mesoscale Convective System	◎
Advanced Cloud Physics	◎			◎
Special Topics on Typhoon Dynamics	◎
Special Topics on Atmospheric Convection	◎
Special Topics on Cloud Modeling	◎			◎	◎
Meteorological Data Assimilation	◎
Geophysical Fluid Dynamics		◎
Atmospheric Boundary Layer Modeling	◎
Special Topics on Cloud Dynamics	◎			◎	◎
Advanced Remote Sensing Data Analysis and Application		◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Gps Meteorology	◎
Climate Change			◎
Advanced Meteorological Statistics	◎
Applied Statistics in Meteorology (Ⅰ)	◎
Applied Statistice in Meteorology (Ⅱ)	◎
Atmospheric Phenomenon (Ⅰ)typhoon	◎
Atmospheric Phenomenon (Ⅲ) Enso			◎
Atmospheric Phenominon (Ⅳ)monsoon			◎
Monsoon and Enso			◎
Ocean-atmospheric Physical and Biogeochemical Interaction		◎	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Independent Study on Air-sea Biogeochemical Interaction		◎			◎
Atmospheric Chemistry and Its Applications				◎
Atmospheric Physical Chemistry				◎
Parallel Computing and Numerical Applications	◎
Atmospheric Radiation and Climate			◎
Air-sea Interaction and Its Numerical Simulation	◎	◎	◎
Satellite Data Analyses and Applications	◎	◎	◎		◎
Modern Statistical Methods in the Atmospheric Sciences	◎	◎	◎		◎
Analysis of Meteorological Time Series	◎	◎	◎
Tropical Cyclone Dynamics	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Mathematical Geophysical Fluid Dynamics		◎	◎
Environmental Organic Chemistry		◎		◎
Physical Oceanography		◎	◎
Monsoon			◎
Numerical Weather Prediction	◎
Dynamic Climatology			◎
Seminar on Weather Diagnosis	◎
Numerial Methods in Atmospheric Models	◎
Climate Change			◎
Global Change and Sustainable Development			◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Special Topics on Experimental Cloud & Aerosol Physics	◎			◎	◎
Special Topics on Radar Meteorology	◎
Atmospheric Radiation Simulation	◎		◎
Earth System		◎	◎
Atmospheric Remote Sensing	◎	◎
Radar Meteorology	◎
Atmospheric Optics	◎			◎
Measurement of Atmospheric Environment				◎	◎
Choices and Analyses of Environmental Policy				◎
Energy and Environment				◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Atmospheric Chemistry Experiments				◎	◎
Climate Diagnostics			◎
Field Measurement of Atmospheric Environment	◎			◎	◎
Boundary Layer Meteorology	◎			◎
Air Pollution				◎
Data Integration and Analysis	◎
Air Pollution Modelling				◎	◎
Special Topics on Dynamical Modeling	◎
Air Pollution Meteorology				◎
Selected Readings on Atmospheric Popular Science Literature	◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Aviation Meteorology	◎
Biometeorology		◎
Technical Writing in English for Atmospheric Sciences Research					◎
Scientific English and Basic Writing					◎
Earth System Model		◎
Atmospheric Environmental Chemistry		◎		◎
Aerosol Science Seminar				◎
Advanced Numerical Methods and Applications （i）					◎
Design and Practice of Scientific Field Experiment					◎
Mathematical Modeling					◎
Capabilities \ Core Courses	A. Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability. B. Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend. C. Comprehend the climatology based on dynamics and the multiscalse interactions D. Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis. E. Possess the ability in writing international journal paper and independent research
	[A]	[B]	[C]	[D]	[E]
Severe Weather Analysis and Forecasting	◎
English Presentation for Students in the Atmospheric Sciences					◎
Analysis of Meteorological Time Series					◎
Atmospheric Remote Sensing		◎	◎
		◎
Biogeochemistry and Climate		◎	◎
Weather Forecast-theory & Application	◎
Deep Convective Cloud Processes	◎
Core Capabilities	A Possess the ability in integrating the advanced knowledge of weather and atmospheric dynamics, and the innovative research ability.	B Posess the advanced research ability in advanced knowledge in Earth sciences, especially the current international development trend.	C Comprehend the climatology based on dynamics and the multiscalse interactions	D Develope and apply the research tools of environmental and atmospheric physical chemistry, such as numerical models, global and regional atmospheric chemistry models, observation instruments, and theoretical analysis.	E Possess the ability in writing international journal paper and independent research
Number of Core Courses （Number of All Courses: 138）	83	47	52	34	59