https://www.ccs.uky.edu/~madhu/MadhuPublications/Prop_carb_full.pdf This PDF fusses on a particular firm of polymer , and it's base and doped response to magnetic pole aligning fields. The point is that there are many resins that have many structural topologies and impurities that demonstrate these magnetic behaviours , We are only beginning in a technical sense to appreciate that magnetic behaviour is fundamental to every element and forms a sound basis for synthesis of so called " electric" mode of magnetic behaviour and dynamic.
Some questions for further investigation.in 2017 Is paramagnetic behaviour comparable to electorstatic behaviour? Is diamagnetic behaviour comparable to the NMR process of resonating the overall magnetic "vector " out of phase by 90°, but in this case by 180° ?
Fascinating how your work is crossed paths through my work. The enthrall of Geometry. God in the machine. May the new year find you well.
Happy New Year to you and all at Magnetic Universe.
I hope that our work will mutually benefit our insights, and inspire the more pragmatic among us to develop more adjusted technologies to benefit all animates and plants .
The confusion regarding magnetic behaviour and so called electric behaviour is exemplified by this article
https://cds.cern.ch/record/282549/files/ps-95-013.pdf within this article magnetic current is used in a specific way that relates a supposed electric current that charges a pulsing capacitor that discharges a pulsed current to a solenoidal but flat magnet field producer!
So much easier to describe how a magnetic dynamic is shaped to a particular topology
My interest was innthebuse of flat magnet sheets in the construction of capacitors! In other words rolling up a fridge magnet and using it as a capacitor.
This was to see if capacitance is a material property or a magnetic property affected by the materials magnetic status . Usually as soon as one starts to think,about capacitor materials one is switched mentally to dielectric materials and dielectricity. The capacitance of magnetic materials is discounted. In addition the capacitance of an inductor ( or more equivalently a transformer ) is usually waylaid.
In a similar thought the inductance of capacitors is usually discounted.
A full description of a circuit is technically possible but rarely done.
The action of a lense in focussing a particular pattern of light onto a plane is mimicked by a magnetic pole focussing a particular magnetic pattern into a region of space we call a pole. A bar magnet has a bowl shaped magnetic region where a particular pattenn stuctur is " concentrated" or focused . These regions are called poles but they are noticeably patterned and structured and manifested by how they shape ferro, para and diamagnetic material. But how they shape radio and tv signals is not usually discussed except in the rarefied atmosphere of Particle beam generators and colliders. But it is known that spectroscopy shows the distortion of focussing caused by magnetic polarisation effects. And the more complicated NMR signal response is now used for investigating materials.
The simplest way to comprehend all of this is by harmonising around a sound magnetic basis
It is worth repeating this link because the graphs tell a pretty story. When we were told that electrostatics were due to static charge we were being misled.
The work of Ivor Catt in the Wakefield experiment demonstrates that if charge is anything at all ( and the tem itself s now next to useless) it is dynamic. Along with this dynamism is a clear magnetic behaviour, which is hypothesised as a component. Hypothesised because it is irreducibly present and modally morphable, and so distinct up to mode.
Clearly one of the modes is called "electric", and like a harmonic has a distinctive frequency range.
We can set distinctive harmonic overtones as components in a vector field with a defined basis made up of harmonic frequencies. This is done most readily in a FourierTransform.
Despite its mathematical complexity it is a very simple notion : the motion of circles within and/ or without circle perimeters. In 3 dimensions the Quaternion Fourier transform captures the motion of spheres in precisely the same dynamic vis a vis spherical surfaces.
All these curves reveal these typical curves for Fourier Transforms of frequency versus amplitude. ( or phase versus Phase) .
The two models have forced experimenters apart ! But now we see the walls crumbling . Magnetodielectricity ( simply capacitance in magnets) is not just found , but to be expected!
Dielectric biased toward so called charge storagem!!
Cold electricity l The lie is in the interference, these are magnetic waves or radio frequency waves picked up by an antenna . The light indicates the antenna is resonating to the frequency of the spark gap . We know from the PMH and from Faraday that a varying magnetic field produces a light in a bulb or in inductive material.
It is clear that a current is a misleading interpretation of electric phenomena . A rotational dynamic in space-time or the aether is a sounder base
Codys explanation makes me smile. The eddy effect of magnetic current in a conductor by definition is Ampères circuit thory of magnetic behaviour. The material as a dielectric either induces " charge" or. " current" in the common theory . This is now of ourselves depndnt on the magneto dialectic character of th material Copper is a supposedly good onductor, so why is it Diamagnetic?
The magneto dielectric property of copper rotates the magnetic force vector through 180°. Thus the copper will not produce a magnetic attraction with this property. Instead it produces a weak repulsion. Moving the magnet movesk this repulsive force effect counter to the motion of the magnet.
It is the magneto dielectric character of the material that produces So called Lenz law. We can explain these effects without resorting to electric current models. Instead magnetic current( if we must use a current model) is quite adequate.
Cold, as Cody shows is just one of the modalities of material modulated by pressure , Volume, nd volatile material pressures.( temperature)" magnetic behaviours effect the volatile modality of material switching cold modalities to volatile ones ( magnetic induction). You could use the kinetic model to explain this but we have o observed small hard balls bouncing around in materials., but we do observe vapours, light, heat and melting with expansion , the change in viscosity of material related to the triple point of a materials phase transition characterisation.
In space materials can cold weld because of these phase transition points at low pressures.
Magnetic behaviour at frequencies nd amplitudes nd phases determined by investigation affect these triple point .
The notion that nature only generates direct current is a misconception. That diodes are natural junction in dielectric materials is known . Semiconductors and transistors are built up from simple diodes . Also see how Volta's attempt to explain his voltaic cell by atmospheres , not Galvanos chemical interpretation was more intuitively the better explanation ignored and squelched by the mainstream .
The magnetic background is always discounted as a fundamental driver in these magneto dielectric materials.
Galvanic action is misleading. These are "earth antennae" as Volta was trying to explain , it is not chemical it is an atmospheric effect, like a radio antennae. Don't be amazed, just be sad at how greedy men have blinded us .
What is a radio wave ? Learn about it here. Ground induction easier than air conduction and simpler equipment not requiring semiconductors and valves per se. Xxx
Comments
This PDF fusses on a particular firm of polymer , and it's base and doped response to magnetic pole aligning fields.
The point is that there are many resins that have many structural topologies and impurities that demonstrate these magnetic behaviours ,
We are only beginning in a technical sense to appreciate that magnetic behaviour is fundamental to every element and forms a sound basis for synthesis of so called " electric" mode of magnetic behaviour and dynamic.
Is paramagnetic behaviour comparable to electorstatic behaviour?
Is diamagnetic behaviour comparable to the NMR process of resonating the overall magnetic "vector " out of phase by 90°, but in this case by 180° ?
The complexity of rotation , the structure of magnetic behaviours and patterns.
Magnetic Mandelbrot , the fractal topology of natural process products xxx
The enthrall of Geometry.
God in the machine.
May the new year find you well.
I hope that our work will mutually benefit our insights, and inspire the more pragmatic among us to develop more adjusted technologies to benefit all animates and plants .
https://cds.cern.ch/record/282549/files/ps-95-013.pdf
within this article magnetic current is used in a specific way that relates a supposed electric current that charges a pulsing capacitor that discharges a pulsed current to a solenoidal but flat magnet field producer!
So much easier to describe how a magnetic dynamic is shaped to a particular topology
My interest was innthebuse of flat magnet sheets in the construction of capacitors! In other words rolling up a fridge magnet and using it as a capacitor.
This was to see if capacitance is a material property or a magnetic property affected by the materials magnetic status . Usually as soon as one starts to think,about capacitor materials one is switched mentally to dielectric materials and dielectricity. The capacitance of magnetic materials is discounted. In addition the capacitance of an inductor ( or more equivalently a transformer ) is usually waylaid.
In a similar thought the inductance of capacitors is usually discounted.
A full description of a circuit is technically possible but rarely done.
A bar magnet has a bowl shaped magnetic region where a particular pattenn stuctur is " concentrated" or focused . These regions are called poles but they are noticeably patterned and structured and manifested by how they shape ferro, para and diamagnetic material. But how they shape radio and tv signals is not usually discussed except in the rarefied atmosphere of Particle beam generators and colliders. But it is known that spectroscopy shows the distortion of focussing caused by magnetic polarisation effects. And the more complicated NMR signal response is now used for investigating materials.
The simplest way to comprehend all of this is by harmonising around a sound magnetic basis
http://www.aps.anl.gov/Science/Future/Workshops/Nanomagnetism/Slides/Park.pdf
It is worth repeating this link because the graphs tell a pretty story. When we were told that electrostatics were due to static charge we were being misled.
The work of Ivor Catt in the Wakefield experiment demonstrates that if charge is anything at all ( and the tem itself s now next to useless) it is dynamic. Along with this dynamism is a clear magnetic behaviour, which is hypothesised as a component. Hypothesised because it is irreducibly present and modally morphable, and so distinct up to mode.
Clearly one of the modes is called "electric", and like a harmonic has a distinctive frequency range.
We can set distinctive harmonic overtones as components in a vector field with a defined basis made up of harmonic frequencies. This is done most readily in a FourierTransform.
Despite its mathematical complexity it is a very simple notion : the motion of circles within and/ or without circle perimeters. In 3 dimensions the Quaternion Fourier transform captures the motion of spheres in precisely the same dynamic vis a vis spherical surfaces.
All these curves reveal these typical curves for Fourier Transforms of frequency versus amplitude. ( or phase versus Phase) .
Elegant simplicity is trochoidally dynamic motion aka magnetic behaviour.
The two models have forced experimenters apart ! But now we see the walls crumbling .
Magnetodielectricity ( simply capacitance in magnets) is not just found , but to be expected!
Magnetic behaviour is the soundest basis.
Dielectric biased toward so called charge storagem!!
Cold electricity l
The lie is in the interference, these are magnetic waves or radio frequency waves picked up by an antenna . The light indicates the antenna is resonating to the frequency of the spark gap .
We know from the PMH and from Faraday that a varying magnetic field produces a light in a bulb or in inductive material.
It is clear that a current is a misleading interpretation of electric phenomena . A rotational dynamic in space-time or the aether is a sounder base
Codys explanation makes me smile.
The eddy effect of magnetic current in a conductor by definition is Ampères circuit thory of magnetic behaviour. The material as a dielectric either induces " charge" or. " current" in the common theory . This is now of ourselves depndnt on the magneto dialectic character of th material
Copper is a supposedly good onductor, so why is it Diamagnetic?
The magneto dielectric property of copper rotates the magnetic force vector through 180°. Thus the copper will not produce a magnetic attraction with this property. Instead it produces a weak repulsion. Moving the magnet movesk this repulsive force effect counter to the motion of the magnet.
It is the magneto dielectric character of the material that produces So called Lenz law.
We can explain these effects without resorting to electric current models. Instead magnetic current( if we must use a current model) is quite adequate.
Cold, as Cody shows is just one of the modalities of material modulated by pressure , Volume, nd volatile material pressures.( temperature)" magnetic behaviours effect the volatile modality of material switching cold modalities to volatile ones ( magnetic induction).
You could use the kinetic model to explain this but we have o observed small hard balls bouncing around in materials., but we do observe vapours, light, heat and melting with expansion , the change in viscosity of material related to the triple point of a materials phase transition characterisation.
In space materials can cold weld because of these phase transition points at low pressures.
Magnetic behaviour at frequencies nd amplitudes nd phases determined by investigation affect these triple point .
The notion that nature only generates direct current is a misconception. That diodes are natural junction in dielectric materials is known . Semiconductors and transistors are built up from simple diodes . Also see how Volta's attempt to explain his voltaic cell by atmospheres , not Galvanos chemical interpretation was more intuitively the better explanation ignored and squelched by the mainstream .
The magnetic background is always discounted as a fundamental driver in these magneto dielectric materials.
Galvanic action is misleading. These are "earth antennae" as Volta was trying to explain , it is not chemical it is an atmospheric effect, like a radio antennae.
Don't be amazed, just be sad at how greedy men have blinded us .
What is a radio wave ? Learn about it here.
Ground induction easier than air conduction and simpler equipment not requiring semiconductors and valves per se. Xxx