Gyroscopic Effects in Copper

[Update note on TPU research]

The Ringing sine waves produced during rapid rise time pulsing of a copper loop of wire can not be associated with either wire resonant length or NMR resonance.
It is my belief these near 5 Mhz waves are of a torsional nature and are a reflection of gravity waves or tempic field waves having to do with light velocity in copper.
The distance of 44.5 feet as found in Lyle Lathems coils, is 1/4 wavelength of this natural frequency showing up in copper wire that is receiving a torsion shock. Lyles coils produce a strong torsion field because a 1/4 wave length is a canceling stub and creates a scalar canceling of the gravity waves.

Identifying the torsional shock mechanism
As E field propagates along the skin of the wire, a negative voltage gradient moves down a wire along its outside area first, skin effect. This produces a strong attraction to the nuclear mass at the proton layer which has a positive charge. Protons layer is pulled outwards quickly towards the skin of the wire, and receives a shock. This shock has been known to blow wires apart at very high voltages.
As a positive E vector voltage propagates the wire at c velocity, the Proton mass is pushed inwards generating a compressing mass shock into the wire. A 5 Mhz ringing wave is observed as the voltage stabilized at the new E field level.

We know that the major energy of the E field is moving along its surface and even outside the wire as photons in the electric field, as a dielectric insulator will effects it's propagation velocity.
Updates to this document will be changed to reflect this recent realization.


Electricity in copper wire

As the gyroscopic force interaction is present in copper during a change of current where resonance is not happening, we need to observe the basic AC wave moving down a copper conductor at a deeper level then we were taught in electronics theory. We move our awareness down into a copper atom setting in a wire. The atom is a little bundle of spheres gyrating around constantly and spinning.

From quantum physics we are told that E vector potential travels down a wire as photons at c [light speed]. In propagation theory of transmission lines and telephone lines we discover there is a propagation delay. On an antenna with free copper the delay is about .97 c, and we have to prune the wires if we want exact resonance, to 97 percent of the calculated wave length in free space. If we add dielectric around the wire in space we slow this even more and it can be dropped to about .5 c in some coax cable transmission systems with large dielectrics.

So here we have the E field [voltage] shooting down the wire at near light speed. It is groups of photons that will freely propagate through the copper atoms and set up a field that is mostly in the space around the wire as a voltage gradient. Information can be modulated on this wave and communications can be done at near c velocities while electrons are hardly moving between atoms even a millimeter distance, back and forth in a vibration of resonance setting up very small magnetic fields along the wire that rotate. Magnetic field is a function of this electron current, and calculated from only the turns of the coil and the electron current flowing in it. Magnetic field is not a function of the photons flowing through the wire, as most often light does not have an appreciable magnetic vector or it could be bent using a magnet. Light is bent using gravity and on the shell of an atom after absorption, but not magnetic field.

Photons are absorbed directly into the electron and proton shells of the atom, and this is how the voltage can rise across a line at near light speed velocity. It can rise to either a negative or a positive gradient, so we know the Proton shell is interactive in this process and absorbing these photons to produce a positive gradient E field even before electrons begin to flow. Thus the first rule of electronics is in error, namely [Positive charge is a result of an absence of electrons] as this can only happen after the electron flow and will not travel at c velocity.

Back to setting on the copper atom in a wire. We look around and soon realize that electrons are moving only two direction between the atoms. They will come from one direction stop and then go back the way they came. This is because in wire we restrict them to a flow in one of two directions.With a full AC wave we reverse them at some frequency rate. We then notice that just before they start to flow, we have a blast of photons streaming by both directions and starting to do things to the whole atom. We also notice that these streams of both photons and electrons seem to flow in a sine wave pattern and therefore must somehow be related to a circle, or a spinning circle as viewed from one side. The voltage moves through the wire first as a sine wave and the electron currents follow it by exactly 90 degrees along the wave form, but the velocities are no where near the same. Photon blast is moving at near c and electrons are spewing off at 1 coloumb or so with a current that is not constant but varying as though it were being restricted by some kind of spinning circular interaction.

Resonance in Copper wire:

If we apply a square wave pulse to a copper length, such as an antenna or just a piece of copper wire, we notice this sine wave appear and then slowly die out over time. Within this sine wave are both components of energy flow, the photons and the electrons and they are resonating in the copper of the antenna system. This antenna needs no capacitors connected to it to do this. All these sine wave effects come from the copper medium of the system itself. Pure copper is where electronics evolved from and all these observations of Faraday and such were made using it. Other materials do not operate exactly the same. We now recognize that photons are moving between proton shells as well as electron shells, and that sine wave production is a quality of copper itself. Which atomic shell is doing what to the sine wave?

NMR

This is where to get further we need NMR study [Nuclear Magnetic Resonance], and in particular the connection with the gyromagnetic ratio, and the 3D spherical visualization of EM. This has been studied in the greatest of detail. It is the magnetic field that aligns the nuclear mass spin angle, and photons are involved also in the tilt angles as a radiation outwards. These same photons that are linked to the positive charge increase in wire that moves at c velocity. The study of many over unity and anti gravity devices reveals the presence of coils and magnets positioned at 90 degrees to one another. The only place we find coils being used at 90 degrees in current technology is in the MRI or NMR scanners. This is the correct place to look for the answers.

Presentation by Doctor Hornak on Nuclear Magnetic Resonance

The first argument we hear from all the ET [electronics techs] is that the magnetic field of the nuclear mass is too small to have any real effects! Is this true? The Proton shell responds by transmission of a photon burst at the NMR frequency! It generates another E field of its own shooting outwards with a unique frequency signature and spinning with a torsion force oppositely the electron shell. In AC circuits a positive  voltage generated oscillation is resulting from interaction with the nucleus of the atom! This positive voltage represents 180 degrees of the rotation of the sine wave. How could this not be important!

The major mass of the copper atom is not setting on the electron shells, it is present at the nucleus. We have never solved what mass is or the field forces involved with mass. What ever the interaction and connection with gravity and mass, it is happening inside the nucleus. [The major magnetic field is on the electron shell.]

If we take all the weights of the parts of the atom at the nucleus and total them up on the periodic table for copper atoms, we then look at the total mass of the nucleus and notice that it comes up short of this sum of its parts. The nucleus of the atom is converting this mass to energy, and this is present in every atom everywhere! "Mass to energy" one of David Hamels favorite sayings, and is well grounded in truth. Is this not a gravity effect in itself?

From  NMR we must observe that to tilt the nuclear spin we apply magnetic fields at 90 degrees, one constant and one pulsing at 1/4 wave of the NMR rate we are searching for. The Proton shell now gives off a Radio frequency photon burst we can measure with a very accurate signature for each element, as it swings back into position of the constant magnetic field. The frequency is related to the strength of the magnetic field. If we are searching for a mechanism to alter the flow of electrons on the electron shell, generating sine waves at RF frequencies, resisting this flow and offering a reversed delayed force as we see in sine waves, this is a good suspect to examine closer.

Next we must note that the frequencies coming out of these atoms in NMR work is RF! This is the only place on the atom that can radiate frequencies of this frequency range into the RF field of an antenna, the Proton shell. And the traces they call NMR traces are the same form as we see with antennas and resonance in copper wire, they interact exactly the same to produce a sine wave output. We are seeing it in copper as a coherent interaction down its entire length, and not just within a single atom group as with NMR scans. The wire must somehow be controlling the magnetic field and extracting only the correct photons of the antennas resonant frequency to radiate outwards.This is controlled by the photons and there interaction bouncing back and forth at resonance. The photons must be radiating from only standing nodes on the antenna where the magnetic field is correct for the antennas resonant frequency.

The frequencies we are using copper to radiate in radio work are the nuclear magnetic vibrations somehow interacting coherently at one frequency! They are not the ESR rates of the electron shell which are microwave frequency photons. The whole field of electronics has not realized they are manipulating proton shells and calling it electronics. The interaction between these two layers of the atom is somehow controlling the photon flow [E vector in electronics]. Restricting it during one tilt of the sine wave, and opening it during another tilt angle. Further more the tilt angle is effecting the electron flow [Electron Current] in the wires as well, and this wave trails the photon flow by exactly 90 degrees of the turn.

Torsion

The local region of space is linked by torsion forces, all is spin Spin couples between all matter and establishes a local time flow rate based on light velocity. This is the interaction of torsion. Torsion propagates via the diamagnetic field. The nature of space is to create spin as mass moves through it.

The forces have not been officially identified as to how, but in non energized copper there is a link between adjacent atoms of the gyroscopic effects, and the proton shells are able to roll together along its entire mass in isotope chains, as waves that I have referred to as tempic field or torsion. I have sensed this effect in long tube devices using Aluminum and Copper aligned only with magnets, and with the non powered scalar coils.

When we hit the copper with an E vector field, photons are absorbed into the Proton layer which is highly magnetic from the standpoint of an NMR chart. When electrons start to flow on the electron shell the magnetic field will control the tilt angle of this nuclear spin. It is the positive charge and its torsional spin will always counter one of electrons dual spins while in magnetic alignment and start to radiate a frequency as a function of the magnetic field it sits in, during a turn. The proton shell charges up and starts to radiate photons back out. This only happens when the tilt angles are changing induction happening, when voltage and current are out of phase.

While we know that the proton shell is the source of positive voltage gradient in the atom, what we have missed is a great deal.
The two electric shells of the atom Electron and Proton are interactive as gyroscopic forces.

The spike of raw voltage we get in copper before the current flows are the photons that get through before the resonance interaction begins. Before the nuclear field starts to move. Any collapse of the field will now cause the Proton shell to overshoot as it cannot stop on a dime like the electron shell can. The "ringing" that slowly dies in the wires may be a nuclear mass interaction involving the diamagnetic field.

This gives a new perception for the electronics tech trying to solve the link to torsion fields. What happens when we spin a large copper cone? The mass spin stabilizes and restricts the Proton tilt angle shift, and inductive effect is altered. In the TPU coil layout we shoot the spike first into the control coil, it sets up a trailing magnetic field, and as the next pulse reaches the collector coil it meets far less resistance passing through it and velocity or quantity of photon propagation increases.

Diamagnetic field

To date no one has been able to wind a coil on an iron core that will repel both ends of a magnet creating a diamagnetic field. If the diamagnetic field was generated on the electron shell we would expect we could then do this using only electron flows interacting. As we do not see induction in the electron beam of a CRT tube, we need to recognize that there is more involved then just electron flows in copper. Diamagnetic fields are present in the diamagnetic elements, they are not present in iron. To experience this, one can experiment with spinning cylinders of both iron and copper bringing magnets near to them.
My own experiments with Spinning Cylinders of Iron and Copper

From this we gain a respect for the diamagnetic qualities of copper as having a lot more energy then the materials that are not diamagnetic. Also that diamagnetic fields are not constant but their force is linked to motion of a magnetic field moving through them. There is a reason Carrs Utron uses copper cylinders and the craft had an Aluminum hull.

The diamagnetic field is responsive, and interactive. It can produce powerful motion in objects far beyond what opposing magnets are able to do and iron core coils. I believe the diamagnetic field comes from the nuclear mass of the atom and this is the force regulating all the orbits of the atoms outer shells.

Spin

Spinning copper cylinders up and bringing magnets near them is one case. The magnetic field meets an opposing force and torsion is transferred between the spinning copper cylinder and the magnet, and it shoots off at high velocity. We did not really do anything to the electron shell as to restrict its flow angle of electrons. There is really no need for them to be dislodged, and at low speeds of 1700 RPM on the cylinders there is almost no noticeable heat production from this experiment. At higher velocity spin we start to see heat around 3000 RPM as electrons are torn loose of their valence orbits and form eddy currents in the copper, but the torsion and motion effects appear way below this level of spin with much more force then we can identify with the eddy currents. There will be a certain RPM threshold where below this the electrons can simply spin inside their orbital shells, but the diamagnetic force still emerges.

In wire we control the electrons flow restricting it to a linear flow and the diamagnetic field now operates differently. Electrons are dislodged and move in one linear direction.
 The phase relationship we see in AC in copper wire shows us now a rotating force is present somehow controlling the voltage and current. The voltage is swinging between a dominant electron shell polarity [-] and a dominant proton shell polarity [+]. Since the electron shell can rotate at microwave frequencies resonance is probably not coming from this [ESR]. And in iron cylinders we see surprisingly no resistance to the motion of the spinning cylinder. Iron is magnetic on the electron shell but has very low nuclear magnetic fields. The nucleus of the atoms do not follow the tilt angle of the external magnetic field, and the mass does not rotate to follow it anywhere near the degree of copper.

So to put this all together into a coherent form, what is electricity with AC currents in copper wire?

1 - Photon bursts at c velocity move opposite directions down a wire as a spike, hitting either electron shell or proton shell and energize the atoms of the copper creating an E vector or voltage gradient either + or - on opposite ends of the wire. Electric field rises out of the wire as a voltage gradient, either from the proton shell + or the electron shell - on opposite ends of the conductor.No current has flowed yet, and no electrons have been moved.

2 - Electrons are dislodged giving rise to what we call current, moving them towards the Protons dominant + end of the wire.

3 - A magnetic field rises out of the electron flows or current, all in one direction giving rise to a coherent magnetic field much larger then the wire and circling it like a donut. This magnetic field now aligns the nuclear mass of the wire and shifts the NMR and ESR photon absorption and radiation rates upwards.

4 - The relationship between wire length, mass, and electron and proton shells photons creates resonance, and the two layers of all the copper atoms begin to dance together at the wires resonant length, altering the tilt angle of mass rotation of the atoms, slowing this down to what we observe far below the frequency possible on the electron shell alone.

5 - The photon frequencies running the length of the wires and creating E vector potential, are a frequency band of rates different for each magnetic field present and each shell they operate on.

Resonance

Resonance in a copper wire is beyond the scope of this article and should be studied in electronics antenna theory.
We end up with Proton and Electron E field dominance of the wire 180 degrees out of phase, and currents flowing in phase with both, but in opposite directions in the wire as the field reverses.

1 - All is copper geometry, and all the forces have there turn running the length of the wire where they propagate more freely, or are restricted by rotation of the field in the wire. Before resonance the magnetic field is propelled into a forced precession of circular or gyroscopic origin. At resonance all the forces are balanced and mass rotation reduces drastically where resonant nodes form along the wire. Voltage and current move into phase balance no longer split by a 90 degree phase shift due to the timing of reflecting photons from the ends of the wires.

2 - The nuclear positive charged mass goes into a tilting or turning on its spin axis trying to follow the dominant magnetic field and spewing out photons creating an opposing wave hitting the electron shell which opposes the current that started it but lags it in real time. This is the self regulating action of the atom responding to imbalance on the surface, of electrons being dislodged. At resonance the voltage node swings between Protons + charge and Electrons - charge generating almost no current in the wires. The current nodes swing 180 degrees between a forced precession moving first one way then the other down the wire and their magnetic field swings perpendicular to the wires radiating the RF field we call radio along its direction vector from the Proton shell of the atom where these frequencies can produce photons in this frequency band.

3 - Resonance starts in the atoms nucleus and moves outwards onto the wires length stabilizing to one coherent frequency. The NMR rate will vary as the magnetic field surges moving upwards and downwards, but where it crosses the wire it will be the frequency of the photon waves moving both directions between the ends of the wires resonant on its length. Tilt angle is a function of the magnetic field however and will be different along the wire as phase changes. Magnetic field is the result of currents on the wire, and at resonance they will oscillate in one position along the wire between voltage nodes. Thus photon bursts into the radio wave will be controlled by magnetic field of the wires length, but it is individual atoms emitting the photons in a coherent harmony.

[The wire will form voltage nodes and current nodes where the atoms are dominantly split into functions of different tilt motions. Current [electron flow] will oscillate in different nodes of the wire then voltage [photon flow].

4 -Proton shell regulates the positive charge and electron shell the negative charge induced into the wires. Electron shell regulates the dominant magnetic field and proton shell regulates the gyroscopic forces leading to sine wave function, resisted by the mass of the nucleus not wanting to turn.

5- At resonance the two fields cross the wires length together during the transition of positive to negative voltage each rotating 90 degrees apart through different spin planes of motion in space. 
 The voltage propagates the wire now only between nodes where it is shut off from flowing by the tilt angle of the proton shell, and the current takes over.

All flows of photons and electrons are regulated by the phase angle of the nuclear mass with respect to the electron shells magnetic field and move between Proton and Electron shells.
 Coherent photons bursts are becoming radiant in 4 directions, along the wire and perpendicular to the wire both directions from both layers of the atom.

Field density and motion is considered in this experiment

[This was my first clue that we do not understand AC in wires or in coils.]

Initial spike
 The E vector of negative potential will meet less resistance in non energized conductors as the phase is aligned correctly before it hits.
A magnetic field around the wire as a circle or toroidal core may increase the E field spike if the magnetic field is not in reverse opposition, or possibly even if it is?  It will slow the nuclear tilt velocity.
 Unfortunately as the field moves into rotation it will now add inductance by increasing the magnetic flux flow.

In normal AC the spin alignment of the proton will be 90 degrees out of phase, and in non energized conductors a positive spike should meet more resistance then a negative spike. When connecting HV to power lines we note that sometimes they arc, sometimes they do not, if the cutouts are pushed quickly. To close the circuit during the short transition to zero would be impossible. It is surmised that one of the polarities has less destructive potential.

DC pulse

A DC pulse will interact with copper differently then an AC one. It will cut off 3/4 of the circular spin cycle with a recovery time between pulses where resonance will try to start at the wires resonant  frequency. It will greatly reduce one of the shells interactions.

A fast negative rise time pulse will shoot many more photons down the wire before the Protons shell can react with a sine function and turn electron shells spin angle into alignment with the wire where electron start to flow.

Independent control of electron and proton may be possible by pulsing two DC waves to opposite polarity down a wire, or from opposite ends. Frequency of the negative DC pulse would entrain the Electron shell and frequency of the positive pulse would entrain the proton shell as these are the only places their photons can interact. If 3 frequencies of each were used it may be possible to create almost any of the conditions we see in OU and AG devices. It has been recognized already that these photon flows as well as the electron currents can flow both directions simultaneously on one wire as waves. They may be thus injected on opposing ends of the wire to flow towards one another. Hetrodyned frequency will become the parameter to manipulate tilt angles of the gyros of each shell, but the frequencies must combine on the shells of the copper and not before. A mixer stage would disperse the energy into a spread spectrum and the atoms will only absorb one of these frequencies at any one point along the wire. To deliver multiple frequencies DC pulsing would seem to work best using the slower of the pulses to shut off the faster of the pulses. Square waves will deliver these across a broad spectrum of NMR and ESR rates where more atoms will be set for absorption.

[E vector potential] Photon flow in AC circuits

Physics
 E field flow or voltage is photons. Negative flow is between electron shells at the ESR frequency, positive flow is between proton shells at the NMR frequency.
 An atoms electron shell is vibrating at a specific energy level, and photons are radiated based on this frequency. All photons have basically the same energy quantum value based on planks constant but the frequency will vary. Photons cannot be adsorbed if the frequency does not exactly relate on the electron or proton shells energy level.

NMR theory
 Photons can only be exchanged by copper atoms that are setting in the exact same magnetic field, thus will be responsive to the same frequency photons for radiation and absorption.
 There is an exact frequency to magnetic field strength parameter established to determine what this frequency will be, and a resultant gyromagnetic ratio emitting photons as the mass containing nucleus is turned by the magnetic field rotation. Copper is 80 percent made of two nuclear isotopes with very close RF frequencies and a high nuclear magnetic moment, so is extremely responsive to the magnetic field at the proton shell. Electron and Proton shell photons are not being exchanged. They do not interact directly as they have no magnetic field strength as light, and they can freely pass in opposite directions through one another. This leads to the possibility that there is more then one kind of E field energy flow possible down copper wire.

 Electronics
 An AC wave moves down a wire with a varying electric field, and a trailing magnetic field that is in transition along the wire establishing sine waves. The magnetic field is only exactly the same along two points of the curve. Photons will hop between them and interact, moving between these points a .97 c. Light velocity is altered by the dielectric constant of the material. [Light velocity is a function of density of the propagation material] Photons of different frequency will be emitted at each level of the sine wave and interact only with other atoms at this same frequency.
 Thus the E field can now move freely at c velocity between equal distant atoms along the wire, and yet every section of the wave along the wire can be interacting with other points at c velocity.
Alternate views and intuitions

In a non energized wire with no outside magnetic field the alignment will follow the nuclear mass and line up in isotope chains.
 Thus when a fast DC spike hits a non energized wire the photons move through entirely to the opposite end and a voltage gradient comes up along the electron shell very fast, before resonance can be induced.

[After current flows and starts to create a non linear or sine function magnetic field along the wire, electron shell photons now begin to burst only between points of equal magnetic field. On the rising edge of the sine wave photons are being absorbed, on the dropping side of the sine wave photons are being released from the wire, at any single point of measurement.
 Thus the atoms along the wire are now lined up at specific distances exchanging a host of photon frequencies between them on two layers of there atomic structure.]

The + proton photons are flowing the opposite direction in the wire as the  - electron photons. So we have two flows simultaneously in opposite directions that have no magnetic field whatsoever, but transfer E voltage vector potential along the wire between identical points of magnetic field strength.

Resonance

The NMR and ESR rates are not compatible being some 1000x different in frequency, and photons are not moving between electron and proton shells but moving opposing directions across the wire simultaneously and then reversing direction as the sine waves shift the magnetic field along the wire.

At resonance reflected waves now meet one another that are interactive. As a reflected Electron frequency photon bundle comes down the wire moving the wrong direction its energy will interact also with all the same points that have identical magnetic field from where it left. Now we have photon cancellation and addition. Standing voltage nodes can form on Both the electron shell and the proton shell at resonance.

At resonance E field is moving now four directions on two layers of the atoms forming standing waves on both Proton and Electron shells.

Field Coherence

For those who still may feel that tilting any one atoms nuclear mass has no effect on the AC interaction, I would recommend reading about field coherence and what happens when all the atoms of a substance begin to do the exact same thing at the same time. The magnetic field down a copper wire is effecting all the atoms in its entire length. Normal ac creates a rolling motion that cancels the inertia in any one direction, fast spikes however do not and wires may jump all kinds of directions as if propelled by spinning gyros being instantly turned or jerked.

Coherent Magnetic Fields

Magnetic field rises to coherence and becomes one field, loosing there individual blotch walls, and establishing only two poles over all the joined atoms involved, the resultant field has a far greater field density reach then all the sum of its parts when not coherent. Tempic field also has this ability, and as we alter the field density upwards the c velocity is also altered .

Conclusion and outlook

If we charge up a copper wire from both ends [E field] from a battery, and stop on the 1st 1/4 wave of its resonant frequency disconnecting the battery before current flows. Then we extract current from its center at resonance with both ends of the wire opened, we could draw energy without discharging the battery. We would only destroy the wires E field that is a ringing ac wave. In theory we extract energy photons from the battery without discharging it in the process. This could also be done using two coils.

As current will only be drawn from the battery after 1/4 wave of the wires resonance frequency, no electrons will be drawn from the battery as long as resonance is not present. This is assuming that the draw is totally inductive and current lags the voltage which is not true at resonance. The resonance must completely die out before the next 1/4 wave charge pulse is applied or be terminated with an exact impedance.

We use a single 10 Mhz pulse to charge a wire or coil resonant at 2.5 Mhz. We capture the ringing energy until resonance is completely gone and then repeat the cycle some 30 or more pulse times later. The generator thus produces one 10Mhz pulse every 30 cycles, and the extraction diode bridge is placed on the wires center during the ringing time charging a capacitor. The capacitor will load the wire and destroy its dipole over time so is disconnected after resonance is lost.

Center of the dipole is shorted during the charge pulse and opened then routed to a diode bridge into a capacitor for discharge after exactly 90 degrees of the resonant frequency. The capacitor will increase current draw from the dipole and slow the voltage changes lowering the frequency of extraction.

If we only tap one side of the sine flow using a single diode then the resonance may last longer. The major magnetic field is in the negative side, so tapping only  the positive pulse side of the wave may sustain oscillation longer.

On consideration of all the information available today on copper from so many sources, and direct experimentation, I have come to view the copper atom as a generator or a source of EM rather then just the medium of propagation that so many have viewed it in past times. I also now view copper as an Over unity or outflow element, and with the success of energy we see in the TPU at present, it is hard to ignore this. Many thanks to those on over unity.com that have shown us it is possible.

Notes:
 The gyro effects are not as simple as presented here, the neutron is also spinning and involves the diamagnetic field probably regulating the orbital distances. The neutrons tilt angle normally spinning at 90 degrees to the magnetic field sets up another spin force. The operation is really three or more gyros of mass interacting, all are orientating to the dominant magnetic field present in some way and all having mass will resist a turn of their axles Because Proton shell is tightly held by the strong force, for now it is ignored as a separate spin field. Note however inside the nucleus we now have mass spinning at 90 degrees and able to resist motion in all direction it may turn. This explains much about inertia.

The operation of the tempic field or torsion force is not covered here but mentioned. Wilbert Smith has already presented the ground work for seeing the spin forces as the root force of the universe, he called it tempic field. Tempic field sets the local time flow rate and is related to density.

Dave L
 c_s_s_p group

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