Students completing this program will have acquired and demonstrated the ability to:
- Apply the standard concepts and tools of atmospheric science to both theoretical and real-world problems in the discipline. This includes core expertise in boundary layer meteorology, climate science, numerical modeling, and policy, and the use of advanced computer programming techniques for quantitative analysis of a broad range of data types.
- Put disciplinary problems in the larger perspective of sustainability and address real-world problems within that context.
- Collaborate effectively and respectfully as part of a team.
- Communicate their work and its broader implications clearly to colleagues, decision makers, and the public.
- Recognize and apply the principles of ethical conduct and professional norms to their work, within the context of diversity, equity, and inclusion.
Students taking the thesis option will have also demonstrated the ability to conduct original research.