Small-scale Instabilities in Inertia-gravity Waves
Offered By: International Centre for Theoretical Sciences via YouTube
Course Description
Overview
Explore small-scale instabilities in inertia-gravity waves in this 39-minute lecture by Manikandan Mathur from the International Centre for Theoretical Sciences. Part of the "Theoretical and Practical Perspectives in Geophysical Fluid Dynamics" program, this talk delves into the complex dynamics of Earth's climate, focusing on atmospheric and oceanic processes across multiple scales. Gain insights into energy transfers, turbulent mixing, and instabilities that are crucial for understanding the global energy cycle. Learn how analytical theories, numerical models, and observational measurements are combined to advance our comprehension of geophysical fluid dynamics. This lecture contributes to a broader discussion on eddies, waves, turbulence, and frontal dynamics, essential for improving climate models and parameterizations.
Syllabus
Small-scale Instabilities in Inertia-gravity Waves by Manikandan Mathur
Taught by
International Centre for Theoretical Sciences
Related Courses
S. Chandrasekhar's Fluid Dynamics by Katepalli Raju SreenivasanInternational Centre for Theoretical Sciences via YouTube Experiments and Simulation of the Turbulent Mixing Between Multiple Spinning Magnetized Plasma Pressure Filaments
Kavli Institute for Theoretical Physics via YouTube Energetically Consistent Climate Modelling - Part 1
International Centre for Theoretical Sciences via YouTube Linking Submesoscale Frontal Dynamics to the Large Scale Background Environment
International Centre for Theoretical Sciences via YouTube Randomness in Dynamical Systems - Lecture 1
International Centre for Theoretical Sciences via YouTube