Flux is the presence of a force field in a specified physical medium, or the flow of energy through a surface.
Electric flux provides that basis.
magnetic field is a imaginary area around a manetic material where other magnetic subestences experience some force but flux is the imaginary lines of force that arise from magnet which indicate direction of force around it.
The strength of the magnet and its proximity effect the current produced. The magnetic flux density falls quickly so it is important to get close. The stronger the magnet the more lines of flux that pass a point as it moves. Or as something passes by it.
The compass tries to align with the Earth's magnetic flux lines.
critical heat flux is the heat flux at critical point
Faraday, proposed lines of flux and lines of force.
As we know that electric flux is the total number of electric lines of forces passing through a surface. Maximum Flux: Electric flux through a surface will be maximum when electric lines of forces are perpendicular to the surface. Minimum flux: Electric flux through a surface will be minimum or zero when electric lines of forces are parallel to the surface.
All materials naturally repel magnetic lines of flux but some materials, like iron, are attracted to magnetic flux because they have unpaired electrons that are attracted to the lines of flux.
The lines of flux are crowded at the ends of magnets, this phenomena is called fringing.
Flux means the rate of change of magnetic field lines through a particular region in space. Magnetic field lines are imaginary lines drawn to demonstrate the magnetic field through a region in space. No flux condition means the magnetic field lines in the observed region in space is uniform throughout the experiment.
If magnetic lines are close, then the magnetic field has a lot of magnetic lines of force packed together. This translates into a large number of flux lines per unit of area through which they're passing. A large number of flux lines per unit area means a high field density. High flux density means the magnetic field is strong compared to a field where the flux lines are not as close together.
That is where the imaginary "flux lines" are concentrated.
There is more magnetic force in that region on a particle.
By cutting lines of magnetic flux through an electromagnet
Magnetic flux
Electro magnetic flux which is in maxwells and gauss.
magnetic flux lines.