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Computational Modeling of Active Systems - Class 3

Offered By: ICTP-SAIFR via YouTube

Tags

Active Matter Courses Stochastic Processes Courses Molecular Dynamics Courses Computational Modeling Courses Statistical Physics Courses Hydrodynamics Courses Nonequilibrium Systems Courses

Course Description

Overview

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Explore the third class in a series on Computational Modeling of Active Systems, presented by Rodrigo Soto from Universidad de Chile, as part of the School on Active Matter at ICTP-SAIFR. Delve into advanced techniques and methodologies for simulating and analyzing active matter systems over the course of 1 hour and 20 minutes. Gain insights into cutting-edge computational approaches used to study the complex behaviors of active particles and their collective dynamics. Learn how to implement and interpret various models that capture the unique properties of active matter, including self-propulsion, energy consumption, and non-equilibrium phenomena. Enhance your understanding of the theoretical foundations and practical applications of computational modeling in the rapidly evolving field of active matter research.

Syllabus

Rodrigo Soto: Computational Modeling of Active Systems - Class 3


Taught by

ICTP-SAIFR

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