MSc in Atmospheric Science - Large Scale and Climate Dynamics in Davis United States | University of California Davis

Atmospheric science explores the physics, chemistry, and movement of Earth's atmosphere and its connections with water systems and living organisms. Learners develop expertise in areas like air quality, weather patterns, atmospheric composition, small-scale weather phenomena, biological weather interactions, climate systems, regional meteorology, global air currents, and computerized weather forecasting. Graduates acquire both theoretical and practical abilities for conducting scientific studies and academic instruction regarding atmospheric chemistry and motion, along with its connections to aquatic environments and life forms. The Atmospheric Science Graduate Group provides Master's and Doctoral programs. Learners can specialize in one or more areas, including air pollution meteorology, atmospheric chemical processes, cloud formation mechanisms, biological weather effects, small-scale atmospheric studies, computerized weather forecasting, satellite monitoring, climate system behavior, global air currents, regional and surface-level meteorology, computational earth sciences, severe weather events, and climate change consequences. The faculty's varied expertise enables cross-disciplinary education and investigation.

Davis's Large-Scale and Climate Dynamics program investigates fundamental fluid motion principles and near-term climate mechanisms. Certain research integrates motion studies, heat transfer, energy radiation, and weather system analysis. Investigations cover phenomena from individual storm systems to worldwide air circulation patterns. Some scholars analyze fluid movement instabilities using mathematical models of weather fronts. The program also includes studies of tropical air currents and their interactions with temperate zone weather systems. Many participants employ computer simulations to recreate atmospheric circulation patterns, while others analyze real-world data using sophisticated statistical methods.