Coursera Plus Annual is 40% Off — Ends July 6.

Class Central is learner-supported. When you buy through links on our site, we may earn an affiliate commission.

YouTube

Anomalous Dissipation and the Strong Onsager Conjecture - Part 3: From Fourier Series to Wavelet Series

Max Planck Science via YouTube

Start learning Write review
Coursera Ad

Learn AI, Data Science & Business — Earn Certificates That Get You Hired

Learn More → Noble Desktop Ad

Live Online Classes in Design, Coding & AI — Small Classes, Free Retakes

Learn More →

Overview

AI, Data Science & Cloud Certificates from Google, IBM & Meta — 40% Off
One plan covers every Professional Certificate on Coursera. 40% off Coursera Plus Annual.
Unlock All Certificates
Explore the third part of a lecture series on anomalous dissipation and the Strong Onsager Conjecture, focusing on the transition from Fourier series to wavelet series. Delve into the mathematical foundations of turbulent flows, energy transfer mechanisms, and the symmetry principles underlying the Strong Onsager Conjecture. Examine the significance of wavelet analysis in understanding energy dissipation across different scales in turbulent systems. Gain insights into the ongoing research and challenges in proving this important hypothesis in fluid dynamics and turbulence theory.

Syllabus

Anomalous Dissipation and the Strong Onsager Conjecture Part3: From Fourier series to wavelet series

Taught by

Max Planck Science

Reviews

Start your review of Anomalous Dissipation and the Strong Onsager Conjecture - Part 3: From Fourier Series to Wavelet Series

Start learning

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Sign up for free
Someone learning on their laptop while sitting on the floor.