1311 videos match your search.
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Glen Halley Understanding the behavior of alternative energy sources when integrated into electrical utility networks is challenging. In this talk, we present OpenIPSL, a library of electrical grid modeling components, built using ... |
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Yi-Lin Chiu |
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Wassim Alexan |
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Robert Nachbar The recent addition of PatternReaction and ApplyReaction to Wolfram Language allows the user to programmatically manipulate atoms and bonds in molecule objects in a chemically meaningful way. This talk shows ... |
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Sebastian Garcia-Sarmiento This talk is the first in a series on modeling electromagnetism with partial differential equations. The focus will be on formulating and solving electrostatic PDE models. Particular attention will be ... |
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Erick Espinosa Juarez, Jan Brugard and Atefeh Esmaeilzadeh This talk covers Version 2 of the Aircraft library. This version adds the possibility to model drones and includes models of quadrotors. The library has been restructured for easier on-boarding and ... |
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Ankit Naik In this presentation, we will explore the Modelica Fluid library. This library provides components for one-dimensional thermo-fluid flow in networks of vessels, pipes, fluid machines, valves and fittings. For this ... |
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Oliver Ruebenkoenig This talk will introduce new functionality to model fluid flow with partial differential equations. The attendee will gain an understanding of how to set up and solve the NavierńStokes ... |
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Alessandro Mastrofini In this solid mechanics talk, we will cover the usage of the finite element method for solving hyperelastic material models. The aim is to enable attendees to set up PDE models describing materials that undergo large deformations. The focus will be on recent developments such as new material ... |
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Yi Lin Chiu |
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Oliver Rübenkönig In this talk, Oliver Ruebenkoenig describes how to build multi physics models in the Wolfram Language to simulate multiple interacting physical phenomena and provides you with the capabilities to build ... |
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Oliver Reubenkoenig This talk demonstrates techniques for setting boundary constraints and boundary loads common in solid mechanics and how they map to Wolfram Language, providing capabilities to build and analyze real-world solid ... |
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Olivier Rousselle We consider an atomic system (hydrogen) where we want to observe interference fringes. To do that, we use a small mirror in which the atoms will perform quantum bounces (due to the confinement between gravity and Casimir–Polder potential). We use Mathematica to implement quantum bounces. Such system can be generalized ... |
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Dr. Dragan Simic |
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Oliver Ruebenkoenig In this talk, we will cover the usage of the NDSolve family of functions and the finite element method. The aim is to enable attendees to set up partial differential ... |
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János Karsai |
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Lou D'Andria In this talk, we will introduce recently released diffing tools for the Wolfram Language. We will explore how to compute and visualize changes between different types of objects, including cells and notebooks. Join us to gain a better understanding of how to use these tools effectively, ... |
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Jerry Thomas As a next step in investigating decision process theory, Jerry Thomas considers steady-state non-streamline solutions to a 3D model. The equations are modified Navier–Stokes equations. Using NDSolve, he shows that these steady-state solutions are not dissimilar to fluid flow solutions despite the modifications. The solutions confirm a result from looking at 2D streamline solutions: they yield stable structures, ones ... |
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Jason Biggs Molecule fingerprints are a method of representing a molecule as a sequence of bits, either on or off, that still encodes important information about the molecular structure. These fingerprints can ... |
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Jason Biggs In this talk, Jason Biggs introduces the concept of molecule fingerprints and shows the different fingerprint types in Version 12.2 of the Wolfram Language, as well as showcasing many enhancements to ... |