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EOAS

Earth, Ocean and Atmospheric Sciences

EOAS 5000
Introduction to Oceanography
[3-0-0:3]
Description
An introduction to the fundamentals of physical, chemical, geological, geochemical, and biological oceanography. It unveils the mystery of the oceans including the formation of the continents, oceanic circulation, and formation of precious minerals in the deep oceans; discovers ocean resources from phytoplankton to fish. The course will lay the foundation for sustainable use of the oceans and discuss human threats such as global warming, overfishing, and coastal pollution.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Describe ocean sciences from interdisciplinary perspectives including physics, chemistry, biology, and geology.
- 2.
  Analyze environmental and earth system problems based on fundamental scientific principles and by applying interdisciplinary skill and knowledge.
- 3.
  Communicate problem solutions using correct oceanographic terminology in English.
EOAS 5001
Introduction to Earth Surface Processes
[3-0-0:3]
Description
This course introduces the Earth surface hydrodynamics, biogeochemical cycles, sediment and climate processes focusing on the river basin and watershed that link with atmosphere, river water, soil, vegetation, landscape, impact of humans, submarine groundwater discharge and ocean for the modification of Earth system.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Analyze problems in earth surface processes based on fundamental scientific principles and by applying interdisciplinary skill and knowledge.
- 2.
  Describe earth surface sciences from interdisciplinary perspectives including physics, chemistry, biology and geology.
- 3.
  Communicate problem solutions using correct earth surface science terminology in English.
EOAS 5002
Atmosphere-Ocean Dynamics
[3-0-0:3]
Prerequisite(s)
EOAS 5000
Description
This course presents fundamental geophysical fluid dynamics in the ocean and atmosphere system by introducing governing concepts and principles in ocean and atmospheric circulation as well as the exchanges of buoyancy, energy and momentum fluxes in the interface between air and sea.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Analyze problems in coupled atmosphere and ocean system based on fundamental scientific principles and by applying interdisciplinary skill and knowledge.
- 2.
  Describe atmosphere and ocean dynamics from perspectives including physics, mathematics and geophysical fluid dynamics.
- 3.
  Communicate problem solutions using correct terminology of atmosphere and ocean dynamics in English.
EOAS 5003
Coupled Physical-Biogeochemical Dynamics in the Ocean
[3-0-0:3]
Prerequisite(s)
EOAS 5000 or equivalent
Description
The biogeochemical cycle in the ocean is not only governed by the chemical and biological processes, but also regulated critically by the physical processes in the ocean. The topics of this course cover ocean circulation and biogeochemical dynamics, marine phytoplankton and zooplankton, biogeochemical response to circulation dynamics in the ocean.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Analyze problems in coupled physical and biogeochemical processes in the ocean based on fundamental scientific principles and by applying interdisciplinary skill and knowledge.
- 2.
  Describe biophysical processes in the ocean from interdisciplinary perspectives including physics, chemistry and biology.
- 3.
  Communicate problem solutions using correct interdisciplinary oceanography terminology in English.
EOAS 5004
Earth System Modeling
[4-0-0:4]
Prerequisite(s)
EOAS 5000 or EOAS 5001 or EOAS 5005
Description
The course covers major processes and interactions of Earth system components and introduces the related numerical modeling concepts and techniques. It provides hands-on modeling projects to explore ideas of designing, constructing, and applying models to test hypotheses and enhance understanding of the Earth system processes and their response and feedback to the climate.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Analyze problems in earth system simulation based on fundamental scientific principles and by applying interdisciplinary skill and knowledge.
- 2.
  Describe earth from cutting-edge numerical technique and interdisciplinary perspectives including physics, chemistry, biology and geology.
- 3.
  Communicate problem solutions using correct numerical and scientific terminology of earth system simulation in English.
EOAS 5005
Introduction to Atmospheric Science
[3-0-0:3]
Description
This course introduces the fundamental principles that govern the physical and chemical processes in the atmosphere, including the thermodynamics of dry and moist air, radiative transfer, important trace gases and aerosols, and essential aspects of atmospheric circulation, etc. These fundamental principles form the basis of understanding the role of atmosphere in the global energy, water and carbon cycles, and the interaction between the atmosphere and other components of the Earth system. This course also provides a synthesis of these topics in the context of critical issues that are affecting human society such as extreme weather events, air pollution, and climate change.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Gain basic knowledge of the essential physical and chemical processes in the atmosphere.
- 2.
  Use the knowledge gained to explain key phenomena in the atmosphere and in the Earth system in general.
- 3.
  Build a fundamental understanding of atmosphere's role in the global energy balance, water and carbon cycles.
- 4.
  Identify trends and challenges in atmospheric research and form scientific questions.
- 5.
  Develop analytical skills in solving problems in atmospheric science and related interdisciplinary fields.
EOAS 5006
Global Carbon Cycle and Climate Change
[3-0-0:3]
Previous Course Code(s)
EOAS 6000B
Description
This course provides fundamental knowledge of how carbon flows through the land-ocean-atmosphere continuum and how carbon interacts with the cycling of water and other essential biogeochemical elements to regulate the Earth’s climate. It provides insight into human activities altering the carbon cycle, the global climate, and ecosystem dynamics. It also explores nature-based solutions or eco-engineering strategies for achieving carbon neutrality and mitigating adverse climate and ecosystem changes.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Develop interdisciplinary concepts and knowledge in the global carbon cycle and its crucial role in regulating Earth’s climate.
- 2.
  Acquire foundational knowledge and theories of carbon and other essential biogeochemical cycles, and understand how they will both affect and respond to global changes and human activities.
- 3.
  Appreciate the latest research trend and state-of-the-art techniques in achieving carbon neutralization and mitigating adverse climate and ecosystem changes.
- 4.
  Build fundamental knowledge and analytical skills useful in natural sciences in general.
EOAS 6000
Special Topics in Earth, Ocean and Atmospheric Sciences
[1-4 credit(s)]
Description
Selected topics of current interest in emerging areas and not covered by existing courses. May be repeated for credit if different topics are covered. May be graded by letter or P/F for different offerings.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Develop interdisciplinary concepts and knowledge in the chosen topics in Earth, Ocean and Atmospheric Sciences
- 2.
  Acquire foundational knowledge and theories of the chosen topics
- 3.
  Appreciate the latest research trend and state-of-the-art techniques in the chosen topics
- 4.
  Build fundamental knowledge and analytical skills useful in natural sciences in general
EOAS 6900
Independent Study
[1-3 credit(s)]
Description
Study on selected topics in the Earth, Ocean and Atmospheric Sciences under the supervision of a faculty member.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Demonstrate mastery of the knowledge and skills in the selected topics related to the Earth, Ocean, and
  Atmospheric Sciences (EOAS).
- 2.
  Apply an interdisciplinary approach in examining the selected topics.
- 3.
  Critically evaluate different aspects of the selected topics.
- 4.
  Communicate findings effectively in written reports.
EOAS 6990
MPhil Thesis Research
Description
Master's thesis research supervised by co-advisors from different disciplines. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Design, develop and conduct cross-disciplinary research in Earth, Ocean and Atmospheric System.
- 2.
  Communicate research findings effectively in written and oral presentations.
EOAS 7990
Doctoral Thesis Research
Description
Original and independent doctoral thesis research supervised by co-advisors from different disciplines. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.
Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.
  Design, develop and conduct cross-disciplinary research in Earth, Ocean and Atmospheric System.
- 2.
  Communicate research findings effectively in written and oral presentations.

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