The solution of the entire vector magnetic potential can be determined by first solving the equation for magnetic flux density.doi:10.1016/j.enganabound.2011.05.010Marc S. IngberDepartment of Mechanical EngineeringGerald F. KiuttuVariTech ServicesElsevier LtdEngineering Analysis with Boundary Elements...
For the above equations to be valid, the medium should have a uniform property that is linear, homogeneous, and isotropic. Linearity means the electric flux density D is directly proportional to the electric field intensity (D = εE) and magnetic flux density B is directly proportional to the...
The buoyant rise of a magnetic flux loop arising from a single perturbed segment of a toroidal flux ring lying slightly beneath the base of the convection ... Y Fan,GH Fisher,AN Mcclymont - 《Astrophysical Journal》 被引量: 197发表: 1994年 The noise from shock waves in supersonic jets ...
B is magnetic flux density ===Eng-tips forums: The best place on the web for engineering discussions. Venomshocker (Electrical) (OP) 4 Sep 07 13:30 Thanks guys, that's exactly what I was looking for.My next question is how do you determine how much current a given generator can p...
Magnetic dipole moment is the difference between north pole and south pole. Electron of an atom and circular current loop too has magnetic dipole moment.
HereEis the electric field strength andBis the magnetic flux density; they are both vectors in ordinary space. The parametercis the speed of light in vacuum.SeeElectromagnetic radiation,Maxwell's equations The nonrelativistic Schrödinger equation is an example of a quantum wave equation. Relativistic...
In an effort to characterize the exploding wire method for efficient production of nanoparticles, we are involved for studying this method in our laborator... R Das,B Das,R Shukla,... - 《Instruments & Experimental Techniques》 被引量: 5发表: 2012年 Magnetic Flux Compression by Magnetically ...
(Gauss's law for magnetism)(4)divD=ρ.(Gauss's law) The notation we have used is the following: E, H, D and B denote the electric field (electric field strength), the magnetic field (intensity of the magnetic field), electrical induction (electrical flux density) and magnetic induction...
The electromagnetic force,Fem, may be written in terms ofmagnetic fieldquantities, specifically, magnetic vector potentialA. The magnetic force is proportional to the square offlux density: (10.13)Fem∝B2 meaning that (10.14)Fem∝(∇×A)2 ...
Here B is the magnetic induction field, μ0 is the permeability, and J is the current density. The situation described above is ideal for the application of Stokes’ theorem, because that theorem states that a line integral of B is unambiguously related to the total current encircled by the...