气象气候学2024秋
From atmoschem
Contents
Lecturer
傅宗玫 (fuzm AT sustech DOT edu DOT cn, +86(755)8801-8872, 工学院北楼906)
Teaching Assistant
Tianci JIANG
All students must send an email to the TA by September 18, including their name + year + major + student ID + cell phone number. There will also be a QQ group for the class.
Students
Undergraduate students in hydrology, environmental sciences, oceanography, physics, chemistry, and other disciplines
Time and location
Fridays 10:20-12:10 (every week), Wednesdays 10:20-12:10 (odd weeks). All classes will meet at 一教421, EXCEPT some tutorials will meet in the computer room in 工学院南楼739.
Office hours
By email appointments
Course material
The follow two textbooks are on reserve in the library:
- AS: Atmospheric Science, An Introductory Survey, 2nd edition, J. M. Wallace and P. V. Hobbs, Academic Press, ISBN:012732951X
- MT: Meteorology Today, 11th edition, C. D. Ahrens and R. Henson, Brooks Cole, ISBN:1305113586
In addition, we have put together a collection of course resources for your reference:
- Meteorology and Climatology: other material Check weekly! 其他参考资料,每周关注!
- Meteorology and Climatology Glossary 中英文名词对照
- Python resources
- Cloud and weather gallery
Assessments
- Final exam (40%):
- Term project (20%):
- Assignments and pop quizzes (40%)
Assignments
Assignments will mostly be distributed on Fridays and are due in two weeks, BEFORE CLASS STARTS. Late assignments will NOT be graded.
Field trip
We are planning a field trip to the Meteorological Bureau of Shenzhen Municipality in mid-November. Participation is voluntary but highly recommended. Contact TA to sign up.
Course schedule
Week | Date | Subject | Assignment | Reading |
---|---|---|---|---|
1 | 9/11 W 第一次课 | The Earth system and the Atmosphere (cb10) | AS Ch1-2; MT Ch1 | |
1 | 9/13 F | Radiative transfer (ymdi) | AS Ch4; MT Ch2 | |
2 | 9/20 F | Radiative transfer (ymdi) | AS Ch4; MT Ch2 | |
3 | 9/25 W | Radiative transfer (ymdi) | AS Ch4; MT Ch2 | |
3 | 9/27 F | Atmospheric thermodynamics (txdk)
Interactive demos of the stability of dry and moist air parcels |
ESE315_Assignment 1 | AS Ch3; MT Ch3-4 |
4 | 9/29 Sun | Atmospheric thermodynamics (w4za)
Interactive demos of the stability of dry and moist air parcels |
AS Ch3; MT Ch3-4 | |
5 | 10/9 W | Atmospheric thermodynamics (txdk)
Interactive demos of the stability of dry and moist air parcels |
ESE315_Assignment 2 | AS Ch3; MT Ch3-4 |
5 | 10/11 F | Atmospheric thermodynamics (txdk) | Assignments 1 due | AS Ch3; MT Ch3-4 |
6 | 10/18 F | Thermodynamics and aerosols (ztif) | AS Ch3; MT Ch3-4 | |
7 | 10/23 W | Clouds and precipitation (48wt) | ESE315_Assignment 3 | AS Ch5 |
7 | 10/25 F | Clouds and precipitation (48wt) | Assignment 2 due | AS Ch6, 9; MT Ch 9-10 |
8 | 11/1 F | Atmospheric boundary layer and turbulence (5km9) | AS Ch8; MT Ch13-16 | |
9 | 11/6 W | ESE315 Tutorial 2 Tutorial 2 slides | ESE 315 Assignment 4 | AS Ch7, 9; MT Ch9, 11 |
9 | 11/8 F | Atmospheric motion (1un4) | Assignment 3 due | AS Ch7; MT Ch11 |
10 | 11/15 F | Atmospheric motion (1un4) | AS Ch7; MT Ch11 | |
10 | TBD | 参观深圳市气象局 | AS Ch8; MT Ch13-16 | |
11 | 11/20 W | Mid- and high-latitude weather (54i2) | Assignment 4 due ESE315_Assignment_5 | AS Ch8; MT Ch13-16 |
11 | 11/22 F | Climate data analysis (2zem) Global SST animation (ffkz),
Global SST anomaly animation (yau8) |
AS Ch8; MT Ch13-16 | |
12 | 11/29 F | ESE 315 Tutorial 3, ESE315 Tutorial 4, Tutorial 3 Slides (u8h6), General circulation of the atmosphere and the ocean (6irh) | ESE315_Assignment_6 | AS Ch7; MT Ch10, Ch17 |
13 | 12/4 W | Severe weather, low-latitude weather; weather forecasting (r21v) | Assignment 5 due | AS Ch7; MT Ch10, Ch17 |
13 | 12/6 F | General circulation of the atmosphere and the ocean (uur7) | ESE315_Assignment_7 | AS Ch10; MT Ch17-18 |
14 | 12/13 F | Term presentation | ||
15 | 12/18 W | Climate system and variability (e77d) | Assignment 6 due | AS Ch7; MT Ch10, Ch17 |
15 | 12/20 F | Climate system and variability (e77d) Climate system and climate change (4o5a) | ESE315_Assignment_8 (reading) | AS Ch10; MT Ch17-18 |
16 | 12/27 F | Atmospheric measurement (6rvx) | ||
17 | TBD | Final exam
Closed-book, all English, calculator required |
Assignment 7 due |
Term project and presentation
Each student should independently complete a data analysis project using Python to demonstrate a phenomenon or answer a scientific question related to meteorology or climate. The student is free to choose his/her topic of interest and is fully responsible for finding and analyzing the data.
However, to ensure success, each student must meet with the Instructor before November 15th to discuss his/her plan and data for the term project.
Each student will give a 10 to 15-minute presentation (length of time depending on the number of students) at the end of the semester.
The term project and presentation will be graded with the following criteria:
- The relevance of phenomenon/scientific question (10%)
- The appropriateness of the data used and analysis methodology (30%)
- The degree to which the phenomenon/question is addressed by the data analysis (30%)
- Clarity of the presentation (30%)
Resources for learning python
Assignments and the term project require calculation and plotting using Python in Jupyter Notebooks. Python is a powerful programming language, while Jupyter Notebooks provide an easy, web-based way to combine code, plots, and descriptive text.
Students are encouraged to install Python and Jupyter using the popular Anaconda distribution. See our Python resources page for instructions. Students enrolled in this course will also be granted access to a SUSTech server running Jupyter, but this can only be used within the SUSTech network (but you can use a SUSTech VPN outside campus). Details will be announced in class.
If you are new to Python or to Jupyter, we recommend that you go through a few online tutorials. Check out our Python resources page.
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