2:46
Conceptual Physics with Paul Hewitt: Trains, Momentum and Coupling
Paul explain why an engine could not pull 80 railroad cars unless the couplings were loose...
published: 27 Dec 2013
Conceptual Physics with Paul Hewitt: Trains, Momentum and Coupling
Conceptual Physics with Paul Hewitt: Trains, Momentum and Coupling
Paul explain why an engine could not pull 80 railroad cars unless the couplings were loose.- published: 27 Dec 2013
- views: 87
0:23
Universal Coupling (Sketchy Physics Simulation)
An animation of a Universal Coupling in Google Sketch-up Ver. 8, using the Sketchy Physics...
published: 18 Mar 2012
author: heavym3tal
Universal Coupling (Sketchy Physics Simulation)
Universal Coupling (Sketchy Physics Simulation)
An animation of a Universal Coupling in Google Sketch-up Ver. 8, using the Sketchy Physics Plugin Ver. 3.1.- published: 18 Mar 2012
- views: 787
- author: heavym3tal
2:07
Space Foosball: Coupling Tangible Interfaces with a Real-time Physics Engine
This is an accompanying video of the paper with the same title. More details can be found ...
published: 01 Sep 2009
author: Young J. Kim
Space Foosball: Coupling Tangible Interfaces with a Real-time Physics Engine
Space Foosball: Coupling Tangible Interfaces with a Real-time Physics Engine
This is an accompanying video of the paper with the same title. More details can be found at http://virtualphysics.kr/index.php/Everyware and http://graphics...- published: 01 Sep 2009
- views: 1243
- author: Young J. Kim
2:13
Coupling - Photography Exhibition The art of stills photography meets the art of Physics
Coupling Photo Exhibition explores the connection between the hidden world, as explained b...
published: 26 Apr 2010
author: comingupcoil
Coupling - Photography Exhibition The art of stills photography meets the art of Physics
Coupling - Photography Exhibition The art of stills photography meets the art of Physics
Coupling Photo Exhibition explores the connection between the hidden world, as explained by the language of Physics, and the visible world as demonstrated wi...- published: 26 Apr 2010
- views: 396
- author: comingupcoil
2:15
Real-Time Water Simulation with Physics Coupling
I created this video with the YouTube Video Editor (http://www.youtube.com/editor)...
published: 23 Sep 2013
Real-Time Water Simulation with Physics Coupling
Real-Time Water Simulation with Physics Coupling
I created this video with the YouTube Video Editor (http://www.youtube.com/editor)- published: 23 Sep 2013
- views: 9
1:24
Synchronisation
Synchronisation of 5 coupled metronomes done in Lancaster University, Physics Dep (http://...
published: 18 Dec 2007
author: Alireza Bahraminasab
Synchronisation
Synchronisation
Synchronisation of 5 coupled metronomes done in Lancaster University, Physics Dep (http://www.youtube.com/user/lancasterphysics), Nonlinear dynamics and medi...- published: 18 Dec 2007
- views: 2178727
- author: Alireza Bahraminasab
56:58
Mod-01 Lec-03 Coupling to electromagnetism, Solution of the Coulomb problem
Relativistic Quantum Mechanics by Prof. Apoorva D Patel, Centre for High Energy Physics, I...
published: 02 Jul 2012
author: nptelhrd
Mod-01 Lec-03 Coupling to electromagnetism, Solution of the Coulomb problem
Mod-01 Lec-03 Coupling to electromagnetism, Solution of the Coulomb problem
Relativistic Quantum Mechanics by Prof. Apoorva D Patel, Centre for High Energy Physics, IISc Bangalore. For more details on NPTEL visit http://nptel.iitm.ac.in.- published: 02 Jul 2012
- views: 685
- author: nptelhrd
3:32
Coupled Oscillators
Two pendulums of equal length and connected by a soft spring, comprise a 2-degree-of-freed...
published: 22 Sep 2012
author: Dan Russell
Coupled Oscillators
Coupled Oscillators
Two pendulums of equal length and connected by a soft spring, comprise a 2-degree-of-freedom system, with two natural modes of vibration. However, a special ...- published: 22 Sep 2012
- views: 3943
- author: Dan Russell
35:59
Magneto-structural coupling: APMS conference
A lecture given by Igor Abrikosov, at the Adventures in the Physical Metallurgy of Steels ...
published: 07 Aug 2013
author: bhadeshia123
Magneto-structural coupling: APMS conference
Magneto-structural coupling: APMS conference
A lecture given by Igor Abrikosov, at the Adventures in the Physical Metallurgy of Steels (APMS) conference held in Cambridge University. The emphasis is on ...- published: 07 Aug 2013
- author: bhadeshia123
0:16
How to Pronounce Coupling
Learn how to say Coupling correctly with EmmaSaying's "how do you pronounce" free tutorial...
published: 21 Feb 2014
How to Pronounce Coupling
How to Pronounce Coupling
Learn how to say Coupling correctly with EmmaSaying's "how do you pronounce" free tutorials. Definition of coupling (oxford dictionary): noun a mechanical device that connects two things a device for connecting railway cars or trucks together the part of the body of a horse, dog, or other quadruped that lies between the forequarters and the hindquarters (electronics) the act or process of linking two or more circuits so that power can be transferred between them usually by mutual induction, as in a transformer, or by means of a capacitor or inductor common to both circuits See also direct coupling (physics) an interaction between different properties of a system, such as a group of atoms or nuclei, or between two or more systems (genetics) the occurrence of two specified nonallelic genes from the same parent on the same chromosome http://www.emmasaying.com/ Take a look at my comparison tutorials here: https://www.youtube.com/user/EmmaSaying/videos?view=1 Subscribe to my channel here: https://www.youtube.com/user/EmmaSaying- published: 21 Feb 2014
- views: 9
5:36
Physics-based Character Skinning using Multi-Domain Subspace Deformations
http://www.cs.cornell.edu/projects/FST/ We propose a domain-decomposition method to simula...
published: 16 Jul 2011
author: Theodore Kim
Physics-based Character Skinning using Multi-Domain Subspace Deformations
Physics-based Character Skinning using Multi-Domain Subspace Deformations
http://www.cs.cornell.edu/projects/FST/ We propose a domain-decomposition method to simulate articulated deformable characters entirely within a subspace fra...- published: 16 Jul 2011
- views: 1785
- author: Theodore Kim
84:52
On Gauge Invariance and Minimal Coupling
Title: On Gauge Invariance and Minimal Coupling Presenter: E. Jenkins and A. Manohar (San ...
published: 06 Jun 2013
author: invisiblesproject
On Gauge Invariance and Minimal Coupling
On Gauge Invariance and Minimal Coupling
Title: On Gauge Invariance and Minimal Coupling Presenter: E. Jenkins and A. Manohar (San Diego) Chair: B. Gavela (CERN & UAM) Abstract: The principle of min...- published: 06 Jun 2013
- views: 81
- author: invisiblesproject
35:36
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides
PROGRAM: STRONGLY CORRELATED SYSTEMS: FROM MODELS TO MATERIALS
DATES: Monday 06 Jan, 2014...
published: 14 Feb 2014
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides
PROGRAM: STRONGLY CORRELATED SYSTEMS: FROM MODELS TO MATERIALS DATES: Monday 06 Jan, 2014 - Friday 17 Jan, 2014 VENUE: Department of Physics, IISc Campus, Bangalore PROGRAM LINK : http://www.icts.res.in/program/MTM2014 The realistic description of materials with strong electron-electron interactions is one of the challenges of modern condensed matter physics. Such a realistic description on one hand requires non-perturbative many body approaches, and on the other hand requires model Hamiltonian with material specific details offered by density functional theory (DFT). Mastering these novel techniques requires a wide background, ranging from DFT to model building and non-perturbative many body approaches such as Quantum Monte Carlo. During the last few years a major breakthrough came with the development of the DFT+Dynamical Mean Field Theory (DFT+DMFT) method. In this approach, conventional ab-initio schemes based on DFT are combined with a modern many-body approach, the dynamical mean-field theory (DMFT). In the DMFT method the full many body problem of solid state physics is mapped onto a quantum impurity model related by a self-consistency condition and the resulting impurity model is solved using non-perturbative many body techniques. The present program has this circle of ideas as its focus. It is built around three Chandrasekhar lectures to be delivered by Prof A. Georges. In addition to these lectures there will be a school, divided into two parts, and a discussion meeting, scheduled between the two parts of the school, in which recent theoretical and experimental results on strongly correlated materials will be discussed by leading experts from India and abroad. The school will be devoted to the following topics. School Part I : Jan 6 -- Jan 9, 2014 a) Basic Density Functional Theory (DFT) and basis sets b) Wannier functions c) An introduction to many-body methods and Quantum Monte Carlo d) Constrained LDA/RPA and Estimation of U and J School Part II : Jan 14 -- Jan 17, 2014 a) Dynamical Mean Field Theory (DMFT) b) Impurity Solvers c) GW+DMFT d) DFT+DMFT The program is designed to educate advanced graduate students and young post-doctoral fellows in this emerging field of strongly correlated systems and to train them to carry out numerical calculations.- published: 14 Feb 2014
- views: 1
83:40
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides
PROGRAM: STRONGLY CORRELATED SYSTEMS: FROM MODELS TO MATERIALS
DATES: Monday 06 Jan, 2014...
published: 14 Feb 2014
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides
Markus Aichhorn - Hunds coupling and magnetism in technetium and chromium oxides
PROGRAM: STRONGLY CORRELATED SYSTEMS: FROM MODELS TO MATERIALS DATES: Monday 06 Jan, 2014 - Friday 17 Jan, 2014 VENUE: Department of Physics, IISc Campus, Bangalore PROGRAM LINK : http://www.icts.res.in/program/MTM2014 The realistic description of materials with strong electron-electron interactions is one of the challenges of modern condensed matter physics. Such a realistic description on one hand requires non-perturbative many body approaches, and on the other hand requires model Hamiltonian with material specific details offered by density functional theory (DFT). Mastering these novel techniques requires a wide background, ranging from DFT to model building and non-perturbative many body approaches such as Quantum Monte Carlo. During the last few years a major breakthrough came with the development of the DFT+Dynamical Mean Field Theory (DFT+DMFT) method. In this approach, conventional ab-initio schemes based on DFT are combined with a modern many-body approach, the dynamical mean-field theory (DMFT). In the DMFT method the full many body problem of solid state physics is mapped onto a quantum impurity model related by a self-consistency condition and the resulting impurity model is solved using non-perturbative many body techniques. The present program has this circle of ideas as its focus. It is built around three Chandrasekhar lectures to be delivered by Prof A. Georges. In addition to these lectures there will be a school, divided into two parts, and a discussion meeting, scheduled between the two parts of the school, in which recent theoretical and experimental results on strongly correlated materials will be discussed by leading experts from India and abroad. The school will be devoted to the following topics. School Part I : Jan 6 -- Jan 9, 2014 a) Basic Density Functional Theory (DFT) and basis sets b) Wannier functions c) An introduction to many-body methods and Quantum Monte Carlo d) Constrained LDA/RPA and Estimation of U and J School Part II : Jan 14 -- Jan 17, 2014 a) Dynamical Mean Field Theory (DMFT) b) Impurity Solvers c) GW+DMFT d) DFT+DMFT The program is designed to educate advanced graduate students and young post-doctoral fellows in this emerging field of strongly correlated systems and to train them to carry out numerical calculations.- published: 14 Feb 2014
- views: 2
Youtube results:
1:11
Wireless power transfer via inductive resonant coupling
We designed and tested a novel wireless power transfer system. This has two special design...
published: 02 Nov 2011
author: 崔 成熏
Wireless power transfer via inductive resonant coupling
Wireless power transfer via inductive resonant coupling
We designed and tested a novel wireless power transfer system. This has two special designed single loop antenna and it can deliver several hundred watts wit...- published: 02 Nov 2011
- views: 14768
- author: 崔 成熏
57:42
Tomi Koivisto "Cosmologies with a New Coupling"
Tomi Koivisto (University of Oslo) "Cosmologies with a New Coupling" New high energy physi...
published: 07 Feb 2013
author: NorditaStockholm
Tomi Koivisto "Cosmologies with a New Coupling"
Tomi Koivisto "Cosmologies with a New Coupling"
Tomi Koivisto (University of Oslo) "Cosmologies with a New Coupling" New high energy physics often predict scalar fields, but their existence is severely con...- published: 07 Feb 2013
- views: 275
- author: NorditaStockholm
42:04
Antoine Georges - Strong correlations from Hund's rule coupling
PROGRAM: The ICTS Condensed Matter Programme 2011 Venue: Indian Insitute of Science, Banga...
published: 14 Jun 2013
author: ICTStalks
Antoine Georges - Strong correlations from Hund's rule coupling
Antoine Georges - Strong correlations from Hund's rule coupling
PROGRAM: The ICTS Condensed Matter Programme 2011 Venue: Indian Insitute of Science, Bangalore Date: Friday 09 Dec, 2011 - Thursday 22 Dec, 2011 DESCRIPTION:...- published: 14 Jun 2013
- views: 29
- author: ICTStalks
24:46
MSC Nastran - Thermomechanical coupling analysis using MSC Nastran
For more information about MSC Nastran, please visit http://www.mscsoftware.com/Products/C...
published: 08 Aug 2012
author: simulatemore
MSC Nastran - Thermomechanical coupling analysis using MSC Nastran
MSC Nastran - Thermomechanical coupling analysis using MSC Nastran
For more information about MSC Nastran, please visit http://www.mscsoftware.com/Products/CAE-Tools/MSC-Nastran.aspx About this Webcast! When heat is generate...- published: 08 Aug 2012
- views: 584
- author: simulatemore
