Boundary conditions in computational fluid dynamics

Electromagnetic Boundary Conditions Explained

https://www.patreon.com/edmundsj If you want to see more of these videos, or would like to say thanks for this one, the best way you can do that is by becoming a patron - see the link above :). And a huge thank you to all my existing patrons - you make these videos possible. In this video

From playlist Electromagnetics

Periodic Boundary Conditions | Lecture 16 | Flow Around a Cylinder

Explanation of periodic boundary conditions in the polar angle. Join me on Coursera: https://www.coursera.org/learn/mathematics-engineers-capstone Lecture notes at https://www.math.hkust.edu.hk/~machas/flow-around-a-cylinder.pdf Subscribe to my channel: http://www.youtube.com/user/jchas

From playlist Flow Around a Cylinder

Physics - Fluid Dynamics (1 of 25) Viscosity & Fluid Flow: Introduction

Visit http://ilectureonline.com for more math and science lectures! In this video I will introduce viscosity and fluid flow involving frictional forces between the molecules and the containing walls. Next video in this series can be seen at: https://youtu.be/3xukKynwA70

From playlist PHYSICS 34 FLUID DYNAMICS

Periodicised view of a 2D shear flow rendered in 3D

This video shows the same simulation of a shear flow as the video https://youtu.be/nmn-YEGLsz0 , but the rectangular simulation region has been drawn several times, in order to emphasize the periodic boundary conditions. In effect, a flow with periodic boundary conditions is equivalent to

From playlist Fluid dynamics (Euler and similar equations)

Bloopers 5: Boundary condition issues for a fluid in a funnel

In this simulation, I wanted to see what happens when an incompressible flow moves through a funnel (one would expect that it has to accelerate to maintain a constant flux). To avoid the formation of vortices, as in many previous fluid simulations, I imposed a constant speed on a horizonta

From playlist Fluid dynamics (Euler and similar equations)

Physics 33 - Fluid Statics (1 of 10) Pressure in a Fluid

Visit http://ilectureonline.com for more math and science lectures! In this video I will show you how to calculate the pressure of an object in a fluid.

From playlist MOST POPULAR VIDEOS

Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (82 of 92) Barrier: Boundary Conditions

Visit http://ilectureonline.com for more math and science lectures! In this video I will look at the boundary conditions on either side of the barrier when x=0 and x=L, such the equation of the motion of the particle on the left-side and the right-side of the boundary should match at x=0

From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION

Physics - Thermodynamics: (1 of 8) Boiling Point Of Water

Visit http://ilectureonline.com for more math and science lectures! In this video I will explain evaporation and boiling point of water.

From playlist PHYSICS 25 THERMODYNAMICS AND WATER

What Is Turbulence? Turbulent Fluid Dynamics are Everywhere

Turbulent fluid dynamics are literally all around us. This video describes the fundamental characteristics of turbulence with several examples from nature and from engineering. We discuss how turbulent fluids are unsteady, three-dimensional, mixing, and multiscale. We also describe how

From playlist Fluid Dynamics

Jean-Frédéric Gerbeau: Fluid-structure interaction in the cardiovascular system. Lecture 2

Abstract: I will introduce the topic of computational cardiac electrophysiology and electrocardiograms simulation. Then I will address some questions of general interest, like the modeling of variability and the extraction of features from biomedical signals, relevant for identification an

From playlist Mathematics in Science & Technology

Interface dynamics, incompressible fluids: Splash/Splat singularities – D. Córdoba – ICM2018

Partial Differential Equations Invited Lecture 10.16 Interface dynamics for incompressible fluids: Splash and Splat singularities Diego Córdoba Abstract: In this survey I report on recent progress in the study of the dynamics of the interface in between two incompressible fluids with dif

From playlist Partial Differential Equations

Applied String Theory (Lecture 2) Dam Thanh Son

Speaker : Dam Thanh Son (University of Washington) Date and Time : 21 Mar 2011, 04:00 PM Venue : AG 66, TIFR, Mumbai Gauge/gravity duality, discovered in string theory in 1997, has became a powerful theoretical tool in the study of quantum field theories at strong coupling. I will review

From playlist Chandrasekhar Lectures

Wolfram Physics Project: Solving the Einstein Equations & Other PDEs Tuesday, Mar. 9, 2021

This is a Wolfram Physics Project working session on solving the Einstein equations and other PDE's in the Wolfram Model. Begins at 1:18 Originally livestreamed at: https://twitch.tv/stephen_wolfram Stay up-to-date on this project by visiting our website: http://wolfr.am/physics Check ou

From playlist Wolfram Physics Project Livestream Archive

Models of Fluid-Structure Interaction and Exact Controllability - M. Vanninathan

PROGRAM: Data Assimilation Research Program Venue: Centre for Applicable Mathematics-TIFR and Indian Institute of Science Dates: 04 - 23 July, 2011 DESCRIPTION: Data assimilation (DA) is a powerful and versatile method for combining observational data of a system with its dynamical mod

From playlist Data Assimilation Research Program

Fractional derivatives, boundary-value problems and the motion of inertial ... by Vishal Vasan

Program : Integrable? ?systems? ?in? ?Mathematics,? ?Condensed? ?Matter? ?and? ?Statistical? ?Physics ORGANIZERS : Alexander Abanov, Rukmini Dey, Fabian Essler, Manas Kulkarni, Joel Moore, Vishal Vasan and Paul Wiegmann DATE & TIME : 16 July 2018 to 10 August 2018 VENUE : Ramanujan L

From playlist Integrable​ ​systems​ ​in​ ​Mathematics,​ ​Condensed​ ​Matter​ ​and​ ​Statistical​ ​Physics

Capturing Turbulent Dynamics and Statistics in Experiments using Exact.... by Balachandra Suri

SEMINAR Capturing Turbulent Dynamics and Statistics in Experiments using Exact Coherent States Speaker: Balachandra Suri (Institute of Science and Technology, Austria) Date: Thursday, 21 January 2021, Venue: Online seminar Turbulence is widely regarded as the last unsolved pro

From playlist Seminar Series

DDPS | The mathematical heart: a computational model for the simulation of the heart function

Mathematical models based on first principles can describe the interaction between electrical, mechanical and fluid-dynamical processes occurring in the heart, as well as the coupling with the external circulation. This is a classical multi-physics problem featuring multi-scale solutions i

From playlist Data-driven Physical Simulations (DDPS) Seminar Series

Fluid Flows and Boundaries on Logarithmic Lattices by Ciro Campolina

PROGRAM TURBULENCE: PROBLEMS AT THE INTERFACE OF MATHEMATICS AND PHYSICS ORGANIZERS Uriel Frisch (Observatoire de la Côte d'Azur and CNRS, France), Konstantin Khanin (University of Toronto, Canada) and Rahul Pandit (IISc, India) DATE & TIME 16 January 2023 to 27 January 2023 VENUE Ramanuj

From playlist Turbulence: Problems at the Interface of Mathematics and Physics 2023

Physics - Thermodynamics: (3 of 8) Freezing Point Of Water

Visit http://ilectureonline.com for more math and science lectures! In this video I will explain and show you how to calculate the freezing point of water (ice) through pressure.

From playlist PHYSICS 25 THERMODYNAMICS AND WATER

On the anomalous thermomechanics of dry active matter (Remote talk) by Julien Tailleur

PROGRAM : FLUCTUATIONS IN NONEQUILIBRIUM SYSTEMS: THEORY AND APPLICATIONS ORGANIZERS : Urna Basu and Anupam Kundu DATE : 09 March 2020 to 19 March 2020 VENUE : Madhava Lecture Hall, ICTS, Bangalore THIS PROGRAM HAS BEEN MODIFIED ONLY FOR LOCAL (BANGALORE) PARTICIPANTS DUE TO COVID-19 RI

From playlist Fluctuations in Nonequilibrium Systems: Theory and Applications