Numerical differential equations
The method of moments (MoM), also known as the moment method and method of weighted residuals, is a numerical method in computational electromagnetics. It is used in computer programs that simulate the interaction of electromagnetic fields such as radio waves with matter, for example antenna simulation programs like NEC that calculate the radiation pattern of an antenna. Generally being a frequency-domain method, it involves the projection of an integral equation into a system of linear equations by the application of appropriate boundary conditions. This is done by using discrete meshes as in finite difference and finite element methods, often for the surface. The solutions are represented with the linear combination of pre-defined basis functions; generally, the coefficients of these basis functions are the sought unknowns. Green's functions and Galerkin method play a central role in the method of moments. For many applications, the method of moments is identical to the boundary element method. It is one of the most common methods in microwave and antenna engineering. (Wikipedia).
Introduction to Moments | Statics
https://goo.gl/1wkFDL for more FREE video tutorials covering Engineering Mechanics (Statics & Dynamics) The objective of this video is to clear the moment concept followed by a workout on simple moment calculation. First of all, the video gives the definition of moment stating that moment
From playlist SpoonFeedMe: Engineering Mechanics (Statics & Dynamics)
Electric Field (2 of 3) Calculating the Magnitude and Direction of the Electric Field
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Electric Field (3 of 3) Calculating the Electric Field In Between Two Charges
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From playlist Electricity and Magnetism
Amazing speed from Magnetic ball (300 000rpm)!!!
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From playlist ELECTROMAGNETISM
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This videos shoe and describes about the Electromagnetic Induction, Faraday's observation.It also describes about the magnitude and direction of induced e.m.f, Faraday’s Laws of Electromagnetic Induction and the Lenz’s Law.
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physics experiments. the angular acceleration f (moment of inertia)(science demonstrations)
Physics (la physique) The angular acceleration obtained by a solid body is inversely proportional to its moment of inertia.
From playlist ELECTROMAGNETISM
AWESOME PHYSICS EXPERIMENTS. Run race!
The concept of moment of inertia is demonstrated by rolling a series of cylinders down an inclined plane.
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Physics - E&M: Magn Field Effects on Moving Charge & Currents (10 of 26) Magnetic Dipole Moment
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain what is a magnetic dipole moment.
From playlist PHYSICS E&M 3: MAGNETIC FIELDS, MAGNETIC FORCES, MAGNETIC FIELD SOURCES, ELECTROMAGNETIC INDUCTION
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From playlist UT El Paso: CEM Lectures | CosmoLearning.org Electrical Engineering
Mechanical Engineering: Rigid Bodies & Sys of Forces (35 of 47) Forces and Moments - Example 1
Visit http://ilectureonline.com for more math and science lectures! In this video I will find moments and the distance of 4 forces applied at opposite angles of a plane. Next video in the Rigid Bodies and System of Forces series can be seen at:
From playlist MECHANICAL ENGINEERING 2 - MOMENT OF A FORCE
Lec 1 - Phys 237: Gravitational Waves with Kip Thorne
Watch the rest of the lectures on http://www.cosmolearning.com/courses/overview-of-gravitational-wave-science-400/ Redistributed with permission. This video is taken from a 2002 Caltech on-line course on "Gravitational Waves", organized and designed by Kip S. Thorne, Mihai Bondarescu and
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Lec 20. Einstein's General Relativity and Gravitation: Gravitation and Quantum Mechanics
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Natalia Tronko: Exact conservation laws for gyrokinetic Vlasov-Poisson equations
Find this video and other talks given by worldwide mathematicians on CIRM's Audiovisual Mathematics Library: http://library.cirm-math.fr. And discover all its functionalities: - Chapter markers and keywords to watch the parts of your choice in the video - Videos enriched with abstracts, b
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Edexcel IGCSE Physics (Paper 2P, Summer 2018) | IGCSE Physics Past Papers
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From playlist EDEXCEL IGCSE Science Exam Papers //
Matteo Gori - 2nd-Quantization of Many-Body Dispersion Formalism: Modeling of Million Atom Systems
Recorded 01 April 2022. Matteo Gori of the University of Luxembourg Department of Science and Materials presents "Second-Quantization of Many-Body Dispersion Formalism: Towards Modeling of Million Atom Systems in Arbitrary Environments" at IPAM's Multiscale Approaches in Quantum Mechanics
From playlist 2022 Multiscale Approaches in Quantum Mechanics Workshop
MIT 8.422 Atomic and Optical Physics II, Spring 2013 View the complete course: http://ocw.mit.edu/8-422S13 Instructor: Wolfgang Ketterle In this video, the professor discussed light forces, mechanical forces, radiation pressure force, reactive forces. License: Creative Commons BY-NC-SA M
From playlist MIT 8.422 Atomic and Optical Physics II, Spring 2013
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Learn the foundations of astrobiology from Professor Impey, a University Distinguished Professor of Astronomy at the University of Arizona, with our Astrobiology: Exploring Other Worlds course here on YouTube. This video is part of module 6, SETI & Cosmic Companionship. Want to take the f
From playlist Astrobiology Course Module 6: SETI & Cosmic Companionship
Electric Field (1 of 3) An Explanation
Explains how to determine the direction and magnitude of the electric field from charged particles. You can see a listing of all my videos at my website, http://www.stepbystepscience.com An electric field is an area that surrounds an electric charge, and exerts force on other charges in t
From playlist Electricity and Magnetism