Define magnetic flux. magnetic flux synonyms, magnetic flux pronunciation, magnetic flux translation, English dictionary definition of magnetic flux. n. A measure of the quantity of magnetism, being the total number of magnetic lines of force passing thr
What is the difference between magnetic flux and magnetic field? Magnetic flux is a measure of the strength of a magnetic field through a given area, while magnetic field is a vector quantity that describes the direction and strength of the magnetic force on a charged particle. What are some ...
However, they used a different definition of the work from the typical two-point measurement scheme and did not obtain the new effect of magnetic flux. A similar system has been adopted to study Landau diamagnetism59. They considered a finite boundary condition, and thus the solution to the ...
Stephan Uhlemann, in Advances in Imaging and Electron Physics, 2008 1 Magnetic Field The magnetic flux density B near the optic axis can be described by the gradient of a magnetic scalar potential ψ3. Sufficiently far away from the entrance and exit faces of the element it adopts the form ...
Magnetic flux ropes appear to play a critical role in solar physics, magnetospheric physics, in the Venusian ionosphere, and in interplanetary space. More than 100 scientists gathered the week of March 27 at an AGU Chapman Conference held at the Princess Hotel, Hamilton, Bermuda, to discuss the...
you’re problem is that you are thinking of “particles moving through a surface in a unit time” as the fundamental definition of “flux” when in fact particles moving through a surface in a unit time is only a particular kind of flux. Generally flux is the integral of a vector field...
Let us compute the toroidal flux \(\psi _t(r, \theta )\) using its general definition for a time-independent Hamiltonian system, for which the \(A_i\)’s components do not depend on time (here identified by the toroidal angle \(\varphi\)): $$\begin{aligned} \psi _t& = {} \...
How to Calculate the Magnetic Flux of a Spatially Non-Uniform Field through a Rectangular Loop Oriented Arbitrarily to the Field Step 1: Determine an expression for dA. Step 2: Set up the integral for magnetic flux. Step 3: Evalua...
In case of Brownian motion superimposed with a constant translational motion such as sedimentation for example, the particle flux J can be described by Fick’s first law of diffusion with an additional term describing the constant translational motion at the velocity v: $${\mathbf{J}} = {\mat...
Representing the magnetic field by a flux function automatically satisfies the solenoidal condition (6), and the force-free equation (5) reduces to a Grad–Shafranov equation for the flux function A $$\begin{aligned} \frac{\partial ^2 A}{\partial r^2}+\frac{1-\mu ^2}{r^2} \, \...