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Date 01/2/2011 email [email protected] Essay on Magnetics 8678 WORDS . 5MAGNETISM This is a new concept describing magnetic attraction. The concept suggests the origin of magnetic force could be the same force that generates the waves maintaining electrons in trajectories within all atomic structures. These positive biased waves radiating from all Protons are randomly aligned through all bodies of matter attracting all negative atomic and sub-atomic particles including Photons in the more negative phase of all electromagnetic waves at any frequency. Some of these electron trajectories can be re-aligned if subject to external forces, such as moving electrons, magnetic fields, shock, vibration, or raised temperature. The force generating the electron trajectories from within the nucleus of all Protons is extremely strong at short range guaranteeing the capture and retention of an electron. This force if aligned into a semi-polarised state with other atomic structures would result in an extremely high attractive force at close range, attracting all polarised waveforms dependant on the direction of polarity, plus all negative atomic particles. This aligned force would be directional and with similarly aligned forces, will attract strongly at close range in one direction and repel them in the other. 1 The following articles cover many of the aspects involved in this concept, at present no other theories clearly describe the attractive and repulsive force of Magnetism. That is not to say current theories are incorrect in any way, but that the theories may be founded on false assumptions regarding the cause of magnetic attraction. Though the concept is simple in its description the manner in which gravity exerts its force becomes quite complex, and when gravity waves become polarized the resultant what appears to be magnetic force becomes even more complex in its interactions. MAGNETISM This article examines how the forces generated by both gravitational attraction and magnetic attraction could be similar, and differ only in the manner by which their force is applied, i.e. random orientation or polarised. Most of the Gravity in our solar system is generated as waves of force from within all protons producing the trajectories that maintain and guarantee the electrons in their atomic shell structures. The exception to this conventional form of gravity is that generated by Neutron Stars where a high density of Neutrons with no Protons generates gravity waves with a negative potential bias. This form of gravity still interacts with gravity meters to produce a mass readout in the same manner as conventional gravity. All gravity waves are disrupted by interference into what appears to be a monopole force of attraction emanating from all bodies of matter with a positive potential bias. Gravity exerts its force in all directions, randomly yet evenly distributed throughout all bodies of matter it is a weak force over comparatively large distances. 2 These gravitational pulses attract all negative elementary particles, electrons, down quarks, neutrons, and photons in the more negative phase of all electromagnetic waves at any frequency. Magnetic force is directional, bi-polar, and comparatively strong at short distances. Magnetic properties can be chemically engineered by the alignment of structured chemical zones to increase magnetic strength into a common polarised direction. This is chemically restructuring the molecules to align into a common direction thus aligning much of their force. Magnetic properties can be externally induced into such an order by electrical induction moving free electrons with their associated spin helix during acceleration, either anti-clockwise, or clockwise in the direction of movement, dependant upon negative or positive motivating potential, this acts at 90 degrees to charge direction. This causes free electrons in an adjacent conductor to be repelled at 90 degrees to primary current inducing some associated electron trajectories to change direction. An electrical conductor can be so affected to exhibit magnetic properties during induction by electrical current. It is the force that projects and maintains electrons in trajectories that can be temporarily polarised into a common direction increasing its overall attractive force for electrons, but most importantly producing an attractive temporarily cohesive force repelling or attracting similar polarised waveforms. In naturally occurring magnetic type materials the d and f trajectories are sometimes utilised with the d trajectory almost fully occupied, and the f trajectory almost empty. These d and f shell trajectories can occupy any angle through 360 degrees. Ferromagnetic materials e.g. iron have 8 electrons in immovable trajectories and 16 electrons in moveable trajectories. 3 If an applied charge through induction coils were to induce these trajectories to move into a common direction then these trajectories could be polarised into a common direction. The polarised position would be maintained as long as the charge was being applied. If the charge were to be removed then the polarised position would revert to the original position. If the density of residual charge is sufficiently high, when the charge for polarisation is removed the remaining charge density within the body of matter could maintain these new polarised states. This polarization of gravity waves from Protons does not affect the overall gravitational attraction of the particular body of matter. Electron Spin Helical Movement Free electrons exist in any body of matter eg. a wire conductor having ends labeled A and B. If a charge were applied to end A with a potential less than the free electrons in the conductor, i.e. with what we refer to as a positive potential. The free electrons would accelerate toward that end of the conductor in a helical anticlockwise rotation (pulled) in the direction of movement, during acceleration. Free electrons exist in any body of matter e.g. a wire conductor having ends labeled A and B. If a magnetic force were constantly moved ( stroked ) along the conductor from B to A, the free electrons would move ( accelerate ) pushed towards end A. The free electrons would accelerate toward that end of the conductor in a helical clockwise rotation ( pushed ) in the direction of movement, during acceleration. 4 Magnetism does not require naturally occurring magnetic material, it can be produced either by the movement and acceleration of electrons, or generated by the very force that maintains electrons within any conductor. When electrons are pulled out of a conductor, for instance when the conductor is connected to a positive connection. The accelerating electrons spin or gyrate in a helical anticlockwise rotation, pulled in the direction of movement towards the positive connection during acceleration. When electrons are pushed through a conductor, eg when induced to accelerate by a moving magnetic field as in a dynamo. The electrons spin in a helical clockwise rotation pushed in the direction of movement, pushed from behind, during acceleration. In both cases above the application of induced force takes effect at 90 degrees to the applied force, due to the helical motion of electrons. This becomes more understandable when considering the spin helical mobility of electrons and how they transfer / induce their force. It seems that electrons may be composed of two or more charge particles, when an electron is induced to accelerate it spins or gyrates about a helical trajectory suggesting imbalance of charge. Recent visual research may suggest that the core of the electron charge moves in the direction of applied force, either pushed or pulled, and the surrounding charge gyrates behind the direction of movement, though this still needs to be proven. 5 Charge and mobility Electrons are our source of electrical power we move them through resistive, inductive and capacitive equipment to produce heat, light, motive power etc. We move them in generators, pulling them through the grid from equipment in domestic and industrial establishments discharging them back to earth. The generators use the attractive and repulsive force generated from within its electro-magnetic coils, to comb through the conductors pushing or pulling free electrons through conductors we call this generating electrical power. In atomic elementary structures, many electrons are bound by an attractive force into a strong, inescapable attraction within each proton of every atom of all elementary materials. It does not take too much imagination to consider that this same force if polarised would constitute the very force we have termed magnetic attraction. If some of the many forces generating electron trajectories were polarised then the accumulated polarised force of attraction or repulsion for similarly polarised waves would be considerable and extremely strong over short distances. 6 MAGNETISM This section considers many aspects of magnetic force and how it is observed. Present understanding has produced excellent detailed formulations explaining how its force is generated and how it interacts with other magnetic materials. The problem still exists however in understanding how that magnetic force is imposed immediately at 90 degrees to an adjacent flow of electrons in an electrical current. Current proofs and formulations are not in question, it is our comprehension of the force of magnetic attraction and how it is generated that needs to be considered. Big Bang Nucleosynthesis Towards the end of the Big Bang Nucleo-synthesis with temperatures falling from 10 43 degC cooling down to -200 deg C. Protium, Hydrogen, and Helium evolved. These would later gather as gas clouds to form the gas stars Stellar Nucleosynthesis As the gas stars cooled and condensed with gravitational force increasing stellar nucleo-sysnthesis began. And with temperatures falling from 10 32 deg C the heavier elements, Iron, Nickel, and Cobalt were formed. Carbon Nanofoam, Graphite, and Fullerines were formed with temperatures below -183 deg C, Neodymium, was formed with Cobalt, Boron, and Samarium, at temperatures below -200 deg C. The Big Bang was a process that followed a momentary collapse of gravitation within a mass of Dark Matter, releasing infinite and boundless energy in the form of Quark-Gluon Plasmas, Photons, and Up Quarks, to become atomic and sub-atomic particles prior to their formation into atomic elementary matter. 7 Big Bang nucleo-synthesis produced the elements from Proteum to Berillium Massive gas stars were formed which ultimately condensed increasing gravity to produce stellar nucleo-synthesis. The ferromagnetic materials were formed towards the end of the Stellar Nucleosynthesis when temperatures had fallen from 10 32C down to -200 Current understanding of Magnet The magnetic behaviour of a material depends on its electron structure and configuration and also on the temperature (at high temperatures, random motion makes it more difficult for the electrons to maintain alignment / polarisation. Ordinarily, the seemingly infinite number of electrons in elementary material, are arranged such that their magnetic forces both orbital and intrinsic cancel each other out. It is often the case that the individual electrons in the solid will contribute magnetic forces that point in different, random directions, so that the material will not be magnetic. Sometimes owing to an applied external magnetic force each of the electron magnetic moments will be, on average, lined up / polarised. Then the material produces a net total magnetic force which can be quite strong. The magnetic behaviour of a material depends on its electron structure, for the reasons mentioned above, and also on the temperature, high temperatures, make it more difficult for electrons to maintain alignment. 8 Magnetic Force The positive potential of gravity waves generated within all Protons with or without an electron in trajectory guarantees that an electron can be inescapably bound within that trajectory, such that only extremely high energy reactions can break its attractive force. Electrons move with anticlockwise helical motion in the direction of their travel towards a more positive potential. This radiates a high frequency set of negative pulses anticlockwise at 90 degrees to the direction of travel. This property is used to induce movement of free electrons within adjacent conductors, as in transformers, primary, secondary coils, electromagnets etc, Earths Magnetic Field Polarisation of electron trajectories occurs naturally in ferromagnetic materials, and helps to produce the polar states of the Earths magnetic field. The movement of the Suns gravity and electromagnetic fields through the earths gravitational field produces a frame dragging effect also moving free electrons. The Suns disrupted pulses of gravitation radially moves free electrons in the Earths side facing the Sun clockwise around Earth, as the free electrons move they move with anticlockwise helical rotation creating an extremely small force for polarisation of some electron trajectories to generate a North / South polarity as it is currently accepted and displayed. This action also moves free electrons in the Earths side away from the Sun anticlockwise around Earth, as the free electrons move they move with anticlockwise helical rotation creating an extremely small force for polarisation of some electron trajectories to generate a North / South polarity the reverse and opposite to what it is currently accepted and displayed. 9 This is so small a force very little needs to change in order to switch polarity from between North and South, there are also many other factors within the Earth itself that affect this polarisation, e.g. axial tilt, electric currents within the molten interior of Earths core, etc, It is a delicate balance that determines the polarity of earth, and one which can change as molten material within the core moves, all dependent upon the continuing radial pulses of gravitation from the Sun moving through the Earth. Electron Trajectories Electron trajectories are directional with maximum positive potential to retain an electron ( in a trajectory ) and a minimum negative potential to repulse an electron into the generated electron trajectory. If these waves were disrupted by interference they would still exhibit the same characteristic becoming predominantly positive pulses of potential separated by much smaller negative pulses emanating from the centre, appearing almost as a monopole force. These pulses of disrupted gravitation will attract all negative charge and charge particles. The attractive force of magnetism at close range could simply be produced by a predominance of free electrons around the North polar region, and a predominance of positive holes at the South polar region. The movement of free electrons toward a more positive potential causes the displacement of free electrons in magnetic type materials. The retention of free electron displacement is caused by polarisation of some of the electron trajectories that maintain the charge stress holding them in place. 10 Magnetic Force Summary The waveforms generated within all protons have the positive potential capacity to attract and maintain an electron inescapably in its trajectory. This is one of two trajectories generated within the protons by the 2 Up Quarks and 1 Down Quark oscillating by repulsion and attraction. These waveforms are randomly orientated throughout all bodies of matter, and from within all atomic structures. The electrons in trajectories are not mobile, they are bound inescapably to the atom structure into which they have been attracted. Free electrons however abound within the structure of all bodies of matter, they are mobile and can be induced to move by external forces of potential charge. This moves free electrons by attraction towards positive, by applying a positive charge, more free electrons enter from a ground potential or neutral connection. When free electrons move / accelerate towards a more positive potential, , they move with a helical anti-clockwise rotation in the direction of travel. This causes high frequency radial pulses of negative potential to be radiated outwards at 90 degrees to the direction of movement. These pulses can be used to induce free electrons in adjacent materials, conductors, or ferromagnetic materials, to move in the same direction as these radial pulses. This is the fundamental basis for electromagnetic induction. If the conductor is wound radially around a ferromagnetic type material, then when free electrons flow through the conductor with a helical anti-clockwise rotation they will induce free electrons in the ferromagnetic core material to move in the same direction as their radial pulses of negative potential. The core material will exhibit North and South pole characteristics, but if it is a ferromagnetic material, some of the trajectories, in the ( d ) and ( f ) trajectories in particular, could become polarised towards the North pole. 11 When the potential supply is removed some of the magnetic, induced effects will remain leaving a predominance of free electrons towards the North polar end of the ferromagnetic material, with some of the electron trajectories aligned, or polarised towards the North pole. This will not affect the overall Mass of the ferromagnetic material, its active, passive, and inertial mass will stay the same. However there will be a high frequency waveform with a positive potential radiating from the North pole travelling by attraction towards the South pole. Although the waveform has a low positive potential bias, it is interspaced with a much smaller, insignificant negative phase. There are two factors involved in the attractive effect of the waveform. The waveform retains its attraction for all negative atomic and sub-atomic particles. It also has a cohesive attraction, or repulsion for other similar waveforms, and it is directional. It will tend to attract opposites, e.g. North Pole positive outgoing to South Pole negative incoming. Our perception of charge needs to be inverted, for positive is the base charge of the Up Quark, e.g. ( +2/3e = Up Quark ) and all other charge potentials are energy increases above and beyond this base charge. Waveforms can have direction, positive outgoing or incoming, and negative outgoing and incoming, all dependent upon how they were synchronously generated. Perhaps these observations and concepts are difficult to comprehend, but better to try than accept the mysteries, of a magnetic force or a gravitational force that we just do not understand or comprehend. A fuller description of gravitation is covered in the set of articles on Gravitation a new concept. 12 Electrical and Magnetic Properties. The concept suggests that the force of magnetic attraction originates in the nucleus of all atoms as waves of gravitation. The electrons in their trajectories around the protons have a charge of ( -1e ). They are bound to that proton and its atomic structure by the inescapable attraction from the waves of gravitation generated by the 2 up quarks and 1 down quark oscillating within the proton. This positive force of attraction from the two up quarks 2 * ( +2/3e ), guarantee that the electron, charge ( -1e ) cannot escape from the proton. The negative force of one down quark (-1/3e) guarantee that the electron will be repulsed out into a trajectory. The direction and distribution of these forces are random throughout all bodies of matter, many atomic structures becoming more complex and unstable generating higher charge potentials within the atom. The electron has a clockwise spin helix when accelerating towards more negative potentials ( being pushed with increasing energy level ), and an anticlockwise spin helix when accelerating towards more positive potentials ( being pulled with decreasing energy level ). The electron has both spin and a spin helical motion, whilst changing its energy state e.g. ( accelerating ). During acceleration electrons will radiate a negative wave-set of pulses either clockwise or anticlockwise dependent on the potential change in energy levels. These pulses can induce free electrons to move in adjacent conductors by repulsion. The difficulty in comprehending the above is in understanding how free electrons are empowered to accelerate through a conductor. 13 If electrons are pulled out of one end of a conductor it is equivalent to connecting a positive power supply, and free electrons will accelerate towards that end, anticlockwise in the direction of movement towards a lesser charge potential. An increasing North Polar attraction toward a conductor will have a smaller but similar effect attracting electrons North with anticlockwise helix, having a more positive wave potential. If electrons are pushed into one end of a conductor it is equivalent to connecting a more negative power supply, and free electrons will accelerate away from that end, clockwise in the direction of movement towards a greater charge potential. An increasing South Polar attraction toward a conductor will have a smaller but similar effect repulsing electrons South with clockwise helix, having a more negative wave potential. 14 Left / Right hand rules. The following describe some of the more important features of electromagnetism with a brief descriptive explanation based on this new concept for magnetic force. Note :- Current in the above figures refers to the direction of conventional current This is the reverse of the direction of Electron Flow. 15 Left Hand Rule motors The First finger represents the direction of Field. (North to South) The Second finger is direction of Current. not Electron Flow. The Thumb represents the direction of the Thrust or resultant Motion. The Electric motor A horseshoe fixed magnet provides a field with North and South poles. A conductor is wound as a coil rotating between the two poles, with switching contacts on pick up brushes for power input. This rotating coil produces a field through its core with North and South Poles when the free electrons ( current ) flows, caused by the electrons anticlockwise spin helix emitting high frequency negative pulses as waves whilst the free electrons accelerate toward positive. The rotor turns through the fixed magnetic field, the switching contacts reversing the current in the rotor causing the next polar field to attract. The rotor field is generated as the free electrons in the rotor accelerate with their spin helical motion generating radial negative pulses. This generates a field ( magnetic ) of pulses attracted by the fixed field. 16 Right Hand Rule generators The First finger represents the direction of Field. (North to South) The Second finger is direction of induced Current. not Electron Flow. The Thumb represents the direction of the Thrust or resultant Motion. AC Generator When a loop of wire is rotated in a magnetic field through North and South polar fields free electrons in the loop of wire flow from North to South , this induced electron flow reverses with each half turn generating an alternating current. An increasing North Polar attraction toward a conductor has the effect of attracting electrons, North having a more positive wave potential. An increasing South Polar attraction toward a conductor has the effect of repulsing electrons, South having a more negative wave potential. Multiple switched rotator coils can simulate a dc current by switching the rotating coils as they pass through the fixed field. New Concept An increasing North Polar attraction toward a conductor has the effect of attracting electrons, North having a more positive wave potential. An increasing South Polar attraction toward a conductor has the effect of repulsing electrons, South having a more negative wave potential. Free electrons in a rotating coiled conductor within a polar field will oscillate between North and South potentials as the rotor revolves. North pole attracts free electrons and South pole repels free electrons, as the conductors are rotated through the magnetic field the electrons oscillate back and forth through the conductor coils. 17 Curled right Hand Rule, Field direction. With Thumb of right hand outstretched and the fingers curled. When current accelerates in the direction of thumb, i.e. when electrons accelerate opposite to direction of thumb, a magnetic field flows in direction of curled fingers, e.g. the spin helix of the electrons is anticlockwise in the direction of travel whilst accelerating. This generates negative pulses radiating outwards from the conductor Current in a conductor creates magnetic field Single Conductor with electron flow accelerating. Free electrons flowing through a conductor will accelerate with an anticlockwise helical motion towards a more positive potential, and clockwise towards a more negative potential. This helical motion produces radial negative pulses around the conductor inducing free electrons in adjacent conductors to move by repulsion. These radiating negative pulses can be observed with a compass needle placed above and below the conductor. These radiating negative pulses are referred to as magnetic field, their overall charge would be considerably less than the charge on an electron. 18 Polar motion N or S To and From Coil = Electron Flow in Coil North Pole towards a coiled conductor, back EMF induces anticlockwise electron helix in the North pole of the magnet, this induces anticlockwise free electrons in coil. North Pole away from coiled conductor, back EMF induces clockwise electron helix in the North pole of the magnet, this induces clockwise free electrons in coil. South Pole towards a coiled conductor, back EMF induces clockwise electron helix in the South pole of the magnet, this induces clockwise free electrons in coil. South Pole away from coiled conductor, back EMF induces anticlockwise electron helix in the South pole of the magnet, this induces anticlockwise free electrons in coil. This is because free electrons in the magnet are induced by back emf from free electrons in the coil to increase or decrease their energy level. Into Primary // To Core // To Secondary Free electrons in primary accelerating towards positive connection anticlockwise electron helix in direction of travel whilst accelerating. Free electrons in core induced to accelerate by repulsion from negative waves from primary coil, they migrate with anticlockwise spin helix in direction of travel, creating a North Pole at the end of core, whilst the free electrons in the primary coil are still accelerating. Free electrons in a secondary coil are induced to accelerate by repulsion from the negative helical waves from free electrons accelerating in core. These free electron in the secondary coil travel with anticlockwise helix whilst free electrons in the core are still accelerating. 19 Electromagnetic Induction When free electrons accelerate they spin and move with a spin helix in the direction of travel whilst accelerating . They travel with anticlockwise helix if moving towards a more positive potential, they are being pulled, energy level is decreasing, and clockwise, they are being pushed, energy levels are increasing, if moving towards a more negative potential. This movement of free electrons can be produce by magnetic induction, or by potential attraction or repulsion, causing the free electrons to be either pulled through the conductor or pushed through the conductor. These radiating negative pulses generated by accelerating electrons are referred to as magnetic field, their overall charge would be considerably less than the charge on an electron. Disc Generator // Homopolar // Faraday Paradox With the disc generator, the fixed magnet provides a permanent magnetic field through the rotatable disc. The presence of the fixed magnet initially causes some free electrons to migrate towards the rim, these free electrons adopt a balance of charge between the rim, the pickup point, and the axis.The concept of the faraday disc is to energise electrons towards the rim, move either the disc, the pick up point, or both to disturb the balance of charge and free electrons will move until balance of charge is restored. 20 Disk Generator Turn the magnetic fixed field no current change, No change in Energy of Electrons at Rim of Disc Turn the rotating disc current flows, Energy increases in Electrons at Rim of Disc Turn the shoe/indicator current flows, Shoe moves through higher energy Electrons at Rim of Disc Turn both disc and shoe indicator current flows Energy increases in Electrons at Rim of Disc The fixed magnetic field passes through the rotatable disc, rotating this fixed magnetic field does not CHANGE the field through the rotor. Rotating the rotor moves the free electrons in the rotor through the fixed magnet field which restricts the movement of free electron in the rotor. These free electrons migrate towards the rim of the rotor balancing the charge density across the disc, where the charge at the rim begins to exceed the charge at the axis. Electrons circulate towards the axis. Rotating the brush metering device around the rim moves the brush through free electrons in the rotor these free electrons migrate towards the axis where electron density is less. i.e. more free electrons passing at the brush contact than exist at the axis. Rotating the rotor and the brush contact moves the free electrons in the rotor through the fixed magnet field which restricts the movement of free electron in the rotor. These free electrons migrate towards the rim of the rotor balancing the charge density across the disc, where the charge at the rim begins to exceed the charge at the axis. Electrons circulate towards the axis. at the same time the brush moves through free electrons in the rotor where these free electrons migrate towards the axis where electron density is less. i.e. more free electrons passing at the brush contact than exist at the axis. 21 Induction Primary inside Secondary Current flows in secondary Power On // Off // Reversed Move Primary In and Out Power Unsteady When free electrons are accelerating in primary they move with anticlockwise spin helix towards positive connection. This occurs when whilst power is switched on, switched off, or unsteady. This also occurs with power switched on and moving primary either in or out of secondary, energising or de-energising free electrons causing anticlockwise spin helical movement. This induces electron flow in secondary. GENERAL Electron accelerates toward positive // Anticlock Helix in direction of movement. Electron energy level increasing. Electron accelerates toward Negative // Clock Helix in direction of movement. Electron energy level decreasing. 22 Primary plus secondary as transformer Primary electrons accelerate with anti-clockwise spin helix in direction of acceleration towards positive. Free core electrons are induced to accelerate by negative pulses from primary coil electron helix, they move with anticlockwise spin helix in direction of movement in the core material. Secondary free electrons are induced to move by negative pulses from accelerating free core electrons spin helix. Primary plus secondary on a magnetic core Primary electrons accelerate with anti-clockwise spin helix in direction of acceleration towards positive. Free core electrons are induced to accelerate by negative pulses from primary coil electron helix, they move with anticlockwise spin helix in direction of movement in the core material. Secondary free electrons are induced to move by negative pulses from free core electron spin helix, they move with anticlockwise spin helix in direction of movement Primary shoe magnet Primary electrons accelerate with anti-clockwise spin helix in direction of acceleration towards positive. Free core electrons are induced to accelerate by negative pulses from primary coil electron helix, they move with anticlockwise spin helix in direction of movement in the core material. Core exhibits magnetic attractive properties because some of the electron trajectories in the core become polarised by the force of free electrons moving and the spin helix of the electrons in the Primary coil. 23 Induction Transformer Primary and Secondary coils. In the transformer diagram the primary current electrons will helically spin anti clockwise in their direction of movement towards positive. This will impose a repulsive force on the core causing free core electrons to move in the same direction with anticlockwise electron spin helix. These free electrons will also helically spin anti clockwise in the direction of their movement through the core. This imposes a repulsive force on free electrons in the secondary core inducing them to move towards the secondary positive terminal. Free Electron Spin Helix A flow of free electrons in a conducting wire, move with anticlockwise helix in the direction of their movement towards the positive terminal. A ferromagnetic core at 90 deg to electron flow on one side of the current carrying conductor will display a magnetic field of N to S A ferromagnetic core at 90 deg to electron flow on the opposite side of the wire conductor it will display a magnetic field of S to N This is because the direction of the anticlockwise helix is reversed on the opposite side of the conductor. 24 Bar magnet inducing current in conductor The N pole of a bar magnet approaching the centre of a wire ring will cause a flow of electrons in the wire anticlockwise in the direction of the magnets movement. i.e. current clockwise Free electrons at the north pole of the magnet will spin with helix anti-clockwise when increasing energy. ( pushed ) The N pole of a bar magnet moving away from the centre of a wire ring will cause a flow of electrons in the wire clockwise in the direction of the magnets movement. i.e. current anticlockwise Free electrons at the north pole of the magnet will spin with helix clockwise on decreasing energy ( pulled ) The S pole of a bar magnet approaching the centre of a wire ring will cause a flow of electrons in the wire clockwise in the direction of the magnets movement. . i.e. current anticlockwise ( pulled ) Free electrons at the south pole of the magnet will spin with helix clockwise when increasing energy The S pole of a bar magnet moving away from the centre of a wire ring will cause a flow of electrons in the wire anticlockwise in the direction of the magnets movement. i.e. current clockwise . ( pushed ) Free electrons at the south pole of the magnet will spin with helix anticlockwise on decreasing energy NOTE :- (pulled) or (pushed) refers to the free electrons in the Magent. This implies that an approaching north pole increases the energy causing anticlockwise spin in the direction of motion. And that an approaching south pole decreases the energy causing a clcokwise spin in the direction of motion. 25 IMPORTANT Perhaps we should consider the spin helix of electrons throughout magnetic material as polarised anti-clockwise towards North with increasing energy and polarised clockwise towards North with decreasing energy, and stationary with no change in energy. Electrons respond in this way to changes in their energy levels. Is this how the Up Quarks and Down Quarks control the electrons in their trajectories, by oscillating between two charge levels, the Up and Down Quark oscillation patterns within the Atoms. Primary secondary induction With power switched on free electrons in the primary will accelerate towards the positive terminal with anticlockwise helical rotation in the direction of movement When current reaches maximum the electron will stop moving. With power switched off the free electrons will redistribute back along the primary with clockwise helical rotation With power switched on free electrons in the primary will accelerate towards the positive terminal with anticlockwise helical rotation in the direction of movement If the primary coil is inside the secondary coil at this time the anticlockwise helical movement of the electrons in the primary will induce the free electrons in the secondary coil to move by negative repulsion they will move anticlockwise in the direction of movement. When current reaches maximum all the electrons will stop moving With power switched on free electrons in the primary will accelerate towards the positive terminal with anticlockwise helical rotation in the direction of movement they will stop when current reaches maximum 26 If the primary coil is then moved into the secondary coil free electrons in the secondary coil will be induced to move whilst the primary coil is moving. This is because as free electrons in the primary approach the near vicinity of free electrons in the secondary the back emf causes the free electrons in the primary to spin with anticlockwise helix whilst the primary is moving in the secondary COMMENT It seems whenever free electrons increase energy they spin with a helical movement anticlockwise in the direction of travel towards positive. Whenever free electrons decrease energy they spin with a helical movement clockwise in the direction of travel. If all electrons oscillate as waves then they would always emit multidirectional negative pulses of high frequency waves. If they spin with helical movement when energised or de-energised then this could produce anticlockwise rotation or clockwise rotation dependant on the direction and change in potential. 27 Faraday Disc Generator This is the Faraday paradox. The Magnetic Flux of a magnet rotates. The area behind the North pole of a magnet has a concentration of electrons rotating when energised in anticlockwise direction. That is clockwise when viewed from the face. The immediate vicinity of the North pole-face emits a positive potential waveform which in the new concept is derived from the Protons generating Gravity waves prior to their disruption by interference. Rotating the disk sweeps the electrons through the magnetic field in the disk. These are picked off by the brush and through the current indicator Configuration without a return path A Faraday disk can also be operated with neither a galvanometer nor a return path. When the disk spins, the electrons collect along the rim and leave a deficit near the axis (or the other way around). It is possible in principle to measure the distribution of charge, for example, through the electromotive force generated between the rim and the axle (though not necessarily easy). This charge separation will be proportional to the magnetic field and the rotational velocity of the disk. The magnetic field will be independent of any rotation of the magnet. In this configuration, the polarisation is determined by the absolute rotation of the disk, that is, the rotation relative to an inertial frame. The relative rotation of the disk and the magnet plays no role. 28 New Conceptual explanation The disk generator constitutes a rotating electric conductor as a disk with its axis fixed between the North and South poles of a magnet, with a similarly mounted current path with indicator connected at one end to the axis and the other to the rim of the conducting disc. When the magnet is rotated no current flow is indicated because electrons in the disc are in a state of equilibrium within the disc there is no path of least resistance for them and there is no change in magnetic field. When the disc is rotated the electrons in the disk are moved toward the brush of the indicator with increasing potential both by the rotation of the disk and the attractive force of the magnetic field acting as a comb through the disk. The new concept for Faradays Paradox suggests that.......... 1. All free electron migrate towards a more positive potential e.g. positive holes or vacancies in all conductive bodies of matter 2. Free electrons maintain a state of charge equilibrium throughout all bodies of matter 3. Free electrons in all bodies of matter will seek the path of least resistance to stabilise charge equilibrium. 4. Gravitation, both as waves, and as disrupted pulses of waves attract all electrons and free electrons in all bodies of matter. 5. Magnetic force energises, attracts or deflects free electrons in all bodies of matter. 6. Electrons spin with helical radius anticlockwise in the direction of movement when energised or pulled through a conductor by a more positive potential. 29 Homopolar motor A simple homopolar motor can be made with a woodscrew, alkaline battery cell, wire, and neodymium disk magnet. The screw and magnet contact the bottom of the battery cell and are held up by magnetic attraction. The screw and magnet spin.A homopolar motor has a magnetic field along the axis of rotation and an electric current that at some point is not parallel to the magentic field. The name homopolar refers to the absence of polarity change.Homopolar motors necessarily have a single-turn coil, which limits them to very low voltages. This has restricted the practical application of this type of motor. Description It is not necessary for the magnet to be electrically conductive, or to move. One can attach the magnet to the battery and allow the wire to rotate freely while closing the electric circuit even at the axis of rotation. Again, where at some point along the electric loop the current in the wire is not parallel to the magnetic field, there occurs a Lorentz Force that is perpendicular to both. This Lorentz force is tangential and produces a torque in the wire, so that the wire rotates.In contrast to other electrical motors, both the orientation and magnitude of the magnetic field and the electric current do not change. Like most electromechanical machines a homopolar motor is reversible so that when electrical energy of a suitable kind is put into its terminals, mechanical energy can be obtained from its motion and vice versa, (see homopolar generator ) for details on construction and theory of operation). 30 Sources of confusion People are sometimes confused by the fact that there are no changes in the magnetic field or electric current, and no recognizable North-South pole interaction between the magnet and the electric circuit. People often think that field lines cannot be used to understand homopolar machines, or that the field lines rotate Faraday Paradox. Others refer to special relativity to explain the homopolar motor. The homopolar motor also may seem to require a conducting magnet. The homopolar motor can be well explained by the Faraday model of lines of force, with a tangential force ( a torque) resulting where the electric current makes an angle with the magnetic lines of force. Lorentz Force Law This is used to explain the machine's behavior. This law, discovered thirty years after Faraday's death, states that the force on an electron is proportional to the cross product of its velocity and the magnetic flux vector. In geometrical terms, this means that the force is at right-angles to both the velocity (azimuthal) and the magnetic flux (axial), which is therefore in a radial direction. The radial movement of the electrons in the disc produces a charge separation between the center of the disc and its rim, and if the circuit is completed an electric current will be produced. 31 New Concept ( Homopolar Motor ) A flow of electrons accelerating from negative towards positive in a conductor move with a spin helical rotation anticlockwise in the direction of travel, that results in the emission of rota In a homopolar motor the electron flow towards positive exists through the circuit around the battery with anticlockwise electron helix. If the wire is fixed and the motor free to rotate. motor rotates clockwise If the motor is fixed and the wire is free to rotate. wire rotates clockwise If both wire and motor are free to rotate. both rotate clockwise If polarity is reversed then rotation is reversed. The electron flow direction towards positive, produces a weak magnetic force in the direction of electron flow towards a north polar position. North pole could be considered positive attracting electrons from South. Electrons with increasing energy / accelerating, in a bar magnet will radiate high frequency anticlockwise negative pulses as waves from the North pole-face and at the same time, coordinated in the same relative radial direction high frequency positive pulses as waves from the South pole-face. These radial waves of pulses would appear rather like the curved long canes of a lobster pot running from North to South Poles and rotating either clockwise or anticlockwise dependant on free electron energy levels. This is identical to a conductor with electrons accelerating from B to A, where A could be considered to be the North pole-face and B the South pole-face. 32 If these negative pulses radiate at high frequency from a conductor or magnet when free electrons accelerate, then these same pulses can induce current in adjacent conductors. These pulses radiating from magnetic poles can be attracted by adjacent conductors with electron flow. These pulses radiating from magnetic poles can also be attracted to the apparent monopole force of gravity. If these pulses were being emitted or radiated from a magnetic body of matter then that magnetic body would be attracted to move or rotate in that direction. The continued force of magnetic attraction is generated by the polarisation of some of the gravity waves being generated within all protons, particularly those generated with ferromagnetic materials where a d or f shell is populated. These shells can readily re-orientate into new directions if external forces are applied. 33 Magnetics Summary Mobility of charge within electromagnetic waves appears as photons Mobility of charge within matter appears as electrons. If electrons decrease energy levels they emit photons. If electrons increase energy levels they absorb photons. Electrons are bound within Protons by the oscillations of 2 up quarks and 1 down quark generating 2 waves with a positive potential bias. These waves (gravity) generated within all protons are of such intensity they guarantee that the captured electron is retained in a trajectory, even when bound into adjacent structures by strong molecular bonds. Gravitational attraction appearing as a monopolar force can only be produced by interference between gravity waves, resulting in disrupted waves of potential with a positive charge bias emanating from the core. If the generated waves from within some protons could be polarised the captive force retaining electrons, plus the captive force from the unused trajectory ( not retaining an electron ) would produce a concentrated attractive force at close range for free electrons. This force would be on a par with what we call magnetic attraction. To the academic this concept may seem naive and over simplified. The fact is that, what appears to be a monopole force of attraction from gravity, can only be produced by the interference of waves. 34 The gravity wave itself is of such strength it guarantees capture and retention of an electron, with a second gravity wave as yet unused. These forces if polarised into a common direction would certainly match the power of magnetic attractive force. The only way to generate a force at 90 degrees to a current is to have electrons generate a rotational helix of pulses of negative potential in the direction of travel. This would induce current flow at 90 degrees to direction of the primary electrons travel. Gravity The attraction of gravity is produced by gravity waves disrupted by interference resulting in pulses of gravitation with a positive potential bias emanating outwards from all bodies of matter, attracting all negative atomic and subatomic particles, by what appears to be a monopole force of attraction. These pulses of gravitation are as numerous as there are Protons within that body of matter. Magnetic Polarisation of some of these gravity waves produces a directional polarised attraction for all negative atomic and sub-atomic charges in one direction, and all positive atomic and sub-atomic charges in the opposite direction. This “ Magnetic “ force is at the atomic level, at very close range, and consists of as many individual pulses as there are Protons across the emergent face of the Polarised body of matter. This polarisation results in an attraction for like polarised bodies to repel in one direction and attract in the other direction of alignment. 35 SUMMARY Following a Big Bang nucleo-synthesis and the evolution of hydrogen, helium up to beryllium, these gasses formed clouds of gas that condensed into vast star systems. These ultimately collapsed into a stellar nucleo-synthesis, producing the heavier elements including the ferromagnetic elements. These magnetic materials have one of the highest binding energies of all elementary materials. They also have d and f shells with d shell full and f shell nearly empty. Both of these shells adopt a tyre like appearance with the ability to project a trajectory almost throughout a 360 degree radius. If subject to external electrical forces from moving electrons these trajectories could temporarily be induced into a polarised direction. It is this understanding which suggests that it is the polarisation of these trajectories that creates the force we see as magnetic attraction, that also generates the properties that we observe in magnetic materials. To sustain polarized trajectories ( magnetization ) extremely high binding energies are required within the atom structures, or high energies in adjacent atom structures. 36 CONCLUSION An electron, which is negatively charged, is attracted to the nucleus of an atom because of the positive charge that is there. The amount of energy that is required to be given to the electron to pull it away from this attractive (Coulomb) force is called the binding energy. For the hydrogen atom, this is an exactly solvable problem (both at the non-relativistic level -the Schrodinger equation- and at the relativistic level -the Dirac equation). However, when more than one electron is present in orbit around a nucleus one must further consider the electrostatic repulsion which arises between the electrons. Because of this additional repulsion, the energy one needs to give a certain electron to remove it from the nucleus is now less than would be needed otherwise. This electronelectron repulsion makes the problem unsolvable analytically. This concept suggests that it is not just a coulomb force that provides the binding energy for electrons, but that it is a positive gravitational waveform, that provides that force. It is a cyclical waveform produced by 2 Up Quarks oscillating by repulsion and attraction with 1 Down Quark within all protons to produce the binding energies for the Electrons in their trajectories. These waveforms can be polarized into a common direction, this polarisation can be retained if the binding energies in adjacent atomic structures are high enough. Polarised trajectories, polarized gravity waves, produce a directional wave attraction which we observe as magnetic attraction. In the case of a simple bar magnet, some polarized gravity waves emerge from the North pole-face and re-enter via the South pole-face. 37 MAGNETIC ATTRACTION A North pole will be attracted at close range to a South pole face, by the wave cohesive attraction, and the attraction of predominant positive holes at the South pole-face for the predominant negative free Electrons at the North pole-face. FOOTNOTE There are many formula and proofs clearly defining electromagnetic forces based on observations of electromagnetic phenomena, e.g. electromagnetic waves, electromagnetic induction, magnetic force, lines of force, magnetic induction, etc, etc,. However it seems that man may not have fully comprehended the nature of the magnetic field and how it is generated. It certainly does not act at 90 degrees virtually as a point of energy transfer. We need to consider how this force can be transferred through 90 degrees, reversible dependent upon polarity. The spin helix of the electron would answer these questions if we consider that the spin helix reverses on reversal of polarity. The electron has negative charge, it appears to be constructed of multiple negative charges around a central core. If the electron were to spin it would radiate high frequency negative pulses radially, clockwise or anti clockwise dependent upon polarity. If the electron were to move with spin, and in a helical motion, it would radiate the same high frequency negative pulses outwards from its conductive bounds as it moves forward or backwards dependent upon polarity. 38 What moves the electron ? In a generator it is ( field ) lines of magnetic force that propel the electrons, ( pushing ) them by repulsion through the conductive coils within the generator. In a conductor it is the application of a positive potential pulling them through the conductor, or the application of a greater negative force pushing them through the conductor. Each time they move they move with helical forward motion with spin, causing the emission of radial high frequency negative pulses. These radial pulses can induce electrons to move by induction if placed adjacent to a secondary conductor at 90 degrees. As occurs if their conductor is wound around a central conductive core. Electrons and Photons are the only mobile negative charge carriers CONCLUSION Magnetic force is produced when Electron trajectories within atomic elementary matter become polarized into a common direction intensifying their force of attraction for all negative charge and charge particles. This produces an extremely strong force at close range which appears as a bipolar force of attraction for negative at the North Polar face and for positive at the South polar face. It could also be explained as a polarising gravitational force. 39