Advanced flight platforms and drive systems

 Advanced flight platforms and drive drive systems

This is the first of many discussions about flight advanced platforms and Drive systems. So let us begin.

Theses images are drawings are the first primary drawings of the drives and operational fields.

Core components to propulsion drive

© 2006 Nikola Romanski

© 2007 Nikola Romanski

See 30-B Reactance Coupler Quantum Effulgence

The oldest data is towards the bottom of this page, with the newest data added at the top of the page. The designs covered in this page were meant more as an alternative source of electrical energy. The primary goal of this project is to perfect an energy flywheel system. These designs, although applicable to use as transport devices, are for ground-based terrestrial operations only. The information on this page is not in any other order, but if it is here it is integral to current research. Items are included and excluded as the project moves beyond the previous scope. {progressive revelation}

This is the way of the supraliminal. You can either accept it or walk away, the truth is, there aren't very many design programs working with these particular systems. The mathematics of that which transcends [versotrans] above our discerning perceptions is the quantum, the unexplainable.

Nikolai E. Romanski

Homopolar Hypertorque gyroscopic directional control Electrogravitational super diamagnetism Rotational Superconducting magnetic levitation for the levo rotation of the energy storage flywheel / secondary disk.
Reactance Coupler for the reciprocal generation of electron flow for energy use in device systems

In the 30-C Reactance coupling device H2O / HHO is used as the primary fuel source.

Oxyhydrogen is a mixture of hydrogen and oxygen gases, normally assumed to be in a 2:1 atomic ratio, the same proportion as water. When ignited, this mixture combusts to water, making 142.35 kJ (34,116 gram calories) of heat for each gram of hydrogen burned: that is 286.97 kJ/mol of enthalpy.

The water in the system is fed from the holding sphere at the top via ionized / atomization mist into the klystron/magnetron excitation cavity. 918mHz@ 25 Db nominal low freq. ignition. From the excitation cavity at the top of the reactor, the ionized plasma state of the water is performed with the use of rotating tachometric magnets into a downward vortex flow.
When this downward flow of plasma is compressed in a vortex manner towards the reconversion of magnetic constance the electron / geon / muon particles are drawn off by MHD anode assembly and shunted to the homopolar motor and magnetic levitation systems and/or energy storage flywheel storage. Particles which are not drawn off by the MHD process come through the singularity event as low energy particles. Since the magneto . ionic structure has been stripped away, only the magneto. acoustic structure of the channeled wave and some H2O remains.

The use of the searle rotor technology as a form of magnetostrictive brushing that allows for the shunting of energy potential to or from the primary device to the secondary energy storage flywheel device by extricative and constrictive means. Allowing the magnetic levitation system to remain nominal in its frictionless levo rotation.

Superdiamagnetism (or perfect diamagnetism) is a phenomenon occurring in certain materials at low temperatures, characterized by the complete absence of magnetic permeability (i.e. a magnetic susceptibility

= -1) and the exclusion of the interior magnetic field. Superdiamagnetism is a feature of superconductivity. It was identified in 1933, by Walter Meissner and Robert Ochsenfeld (the Meissner effect).

Superdiamagnetism established that the superconductivity of material was a stage of phase transition. Superconducting magnetic levitation is due to superdiamagnetism , which repels a permanent magnet, and flux pinning, which prevents the magnet floating away.

Photonic interconnect reconfigurably couples integrated circuits such as microprocessor, memory or other logic components. Detector, modulator, broad-band coupler and waveguide elements provide transmit and receive capability on CMOS substrate.
Triggerable remote controller 802.11a receiver responsive to the 802.11a signals for producing GPS data when enabled Cellular network data communication system / 5 GHz, 802.11a Wireless LAN Lidar DSP interface Stereoscopic And Velocimetric Reconstructions Organic Ionic compounds ( the device as it is grown via electrolysis / particularly liquid states).
Methods for hydrogen distillation onboard.

  1. Electrometallurgy is the process of reduction of metals from metallic compounds to obtain the pure form of metal using electrolysis. For example: sodium hydroxide in its metallic form is separated by electrolysis into sodium and hydrogen, both of which have important chemical uses.
  2. Anodization is an eletrolytic process that makes the surface of metals resistant to corrosion. For example, ships are saved from being corroded by oxygen in the water by this process. The process is also used to decorate surfaces.
  3. Electro-refining is used to purify metals by electrolysis. For example, if an impure copper anode is electrolysed, pure copper forms around the cathode, and the impurities near the anode.
  4. Electrolysed water has been found to be the purest form of water and is used in many dentistry and medicinal applications.
  5. A battery works by the reverse process to electrolysis. Humphry Davy found that lithium acts as an electrolyte and provides electrical energy.
  6. Production of oxygen in spacecraft. The oxygen that astronauts breathe in space is produced by electrolysis of water, which uses solar panels as a source of electrical energy.
  7. Electroplating is used in layering metals to fortify them. Electroplating is used in many industries for functional or decorative purposes, as in vehicle bodies and nickel coins.
  8. Production of hydrogen for fuel, using a cheap source of electrical energy.

Ca2(Al, Mg, Fe)3 (SiO4)3 (OH)H2O


Concerns about Nitric Oxide and Nitrogen Dioxide buildup in unventilated testing facilities. These chemicals are often mistaken for the odor of sulphur during some ufo events.

To design the device in such a way to facilitate submarine operation. The technology may perhaps have risen from the perfection of electrical propulsion in sub marine environments.

© 2006 Nikola Romanski

The Fourth State of Matter

There are three classic states of matter: solid, liquid, and gas; however, plasma is considered by some scientists to be the fourth state of matter. The plasma state is not related to blood plasma, the most common usage of the word; rather, the term has been used in physics since the 1920s to represent an ionized gas. Space plasma physics became an important scientific discipline in the early 1950s with the discovery of the Van Allen radiation belts. Lightning is commonly seen as a form of plasma. Matter changes state as it is exposed to different physical conditions. Ice is a solid with hydrogen (H2) and oxygen (O) molecules arranged in regular patterns, but if the ice melts, the H2O enters a new state: liquid water. As the water molecules are warmed, they separate further to form steam, which is a gas. In these classic states, the positive charge of each atomic nucleus equals the total charge of all the electrons orbiting around it so that the net charge is zero. Each entire atom is electrically neutral. When more heat is applied, the steam may be ionized: an electron will gain enough energy to escape its atom. This atom is left one electron short and now has a net positive charge; now it is called an ion. In a sufficiently heated gas, ionization happens many times, creating clouds of free electrons and ions; however, not all the atoms are necessarily ionized, and some may remain completely intact with no net charge. This ionized gas mixture, consisting of ions, electrons, and neutral atoms, is called plasma. A plasma must have sufficient numbers of charged particles so that the gas, as a whole, exhibits a collective response to electric and magnetic fields. Plasma density, therefore, refers to the density of the charged particles. Although plasma includes electrons and ions and conducts electricity, it is macroscopically neutral: in measurable quantities, the number of electrons and ions are equal. The charged particles are affected by electric and magnetic fields applied to the plasma, and the motions of the particles in the plasma generate fields and electric currents from within. This complex set of interactions makes plasma a unique, fascinating, and complex state of matter.

© 2006 Nikola Romanski

The high-temperature strength of quartz fiber is considerably stronger than that of the high silica fiber.
Graphite Adhesive

High temperature graphite-based one-part adhesive paste offering extra-high adhesive strength for bonding and sealing graphite and composite structures.
Monoatomic gold for its superconducting properties and Yttrium used for microwave filtering layers within the laminate.
A new interatomic potential for the description of various elements.

Everybody has a natural resonance; a frequency at which it prefers to vibrate most freely. If excited at this frequency, the body in question vibrates at a larger amplitude than it would at some other frequency. Furthermore, it would have a tendency to continue to vibrate indefinitely were it not for a property of the material called damping. Thus, excitation energy must be continuously applied to keep the body in vibration.

Electromagnetic Radiation Safety
Some Definitions of Bioelectromagnetic

Shielding and Relevant Considerations
Non-Ionizing Radiation
Dangers of Non-Ionizing Radiation
Sub-Radiofrequency Fields
Radiofrequency, Microwave, and Infrared Radiation
Laser Radiation

Near Ultraviolet

Radiation Ionizing Radiation Introduction and Definitions
Maximum Doses Generation of Far-UV and X-Ray Radiation
Shielding of X-Ray Radiation Vacuum and Chamber Safety
Implosion / Explosion Hazards Pylon Vertical variance
Chamber Entry and Confined Space Hazards Compressed Gas Containers
Chemical Safety Classification of Chemicals and Sources of Information
Solvents and Other Liquids Proper Venting of Gases and Fumes
Cryogenics and system cooling

The use of Magnetic Induction Plasma

In Tokamak reactors the inductive current drive is inherently pulsed and therefore incompatible with the steady operation of a power plant. However, with the design of Plasma Reactors similar to the 30 A

Series

the Magnetic induction of the plasma is essential in order to derive the resonant harmonic cycle of the device operation. To order the magnetic induction of microwave frequency plasmas at resonance to All device parameters.

Transmigrations / Astral Event

Transmigratus, past participle of transmigrare to migrate to another place, from trans- + migrare to migrate transitive verb :

to cause to go from one state of existence or place to another intransitive verb 1 of the soul :

to pass at death from one body or being to another. Sanskrit; Laghima Pranayama / Levitation of the spirit. Axis Mundi / and or / Vimana Laghima

© 1989 Nikola Romanski

© 2005 Nikola Romanski

Channeled Wave Pattern © 2006 Nikola Romanski

© 2005 Nikola Romanski

This is a layout for the symmetry of the circuitry, it is not the intended course of the true form.

© 2005 Nikola Romanski

The Potential of Piezokinetics

Another consideration in the manufacture of composite secondary

discs is the introduction of gold or platinum /any nominal superconducting filament wrapped in quartz fiber that is embedded radially throughout the disc. The purpose of this being to more readily energize the circuit without means of external charging. Refers to unpublished 28-B designs and explications on the balancing of circuit harmonics/ resonance while shunting voltage into or from the flywheel storage milieu.

Verily multifaceted, investigations on bioelectromagnetic shielding

are advised to gaurd against electric shock and paralysis. Other investigations include the generation of plasmas at microwave frequencies and the special properties of magnetohydrodynamic induction within the compression of reconversion/singularity and harmonic wave resonating.

Inversion of the Tokamak design is made possible by the special relativity of the singularity reconversion function.

When viewing the design of the 30-A Reactance coupler, it is important to know that the system is under intense magnetic repulsion stresses. To not observing proper caution when servicing the reactor could potentially cause it to discharge explosively, if either the upper or lower pylons are removed or maladjusted physically before de-energizing the system. Even in a discharged state, the force of the repelling magnets of the compression system is packed with significant opposing torque. The integrity of the device is dependent on this design implication. This lack of common sense has caused the deaths of other individuals on other projects in the past and serves as a cautionary redundancy that is important to future projects.

© 2005 Nikola Romanski

© 2005 Nikola Romanski

Special Relativity of Emanations Surrounding the focal moment of reconversion in gravitational singularity.

© 2005 Nikola Romanski

A new direction for Plasma Reactors

By using the Kerr rotational equations of Singularity to configure the magnetic field compression (Schwarzchild , Tipler [Blazars, natural explosive deviation] on the special properties of harmonic wave reconversions and specific resonance) of the Plasma compression in the reactance coupling device, Reciprocal Feedback can be achieved with the correct tuning of resonance/harmonics. This is especially useful in the utilization of the heavy electron (geon) populations in the magnetohydrodynamic induction process. Another note on the kerr singularity (rotational/gravitational) is that matter (mass) is a byproduct of the energy function of the real-time moment of singularity that occurs significantly outside the primary event horizon. { This implies multiple singularities in the time-space metric, each having their own relativity within or without. And it is important to note that in the process of a singularity moving through spacetime over billions of millennia matter (mass) is continuously formed from the stagnating energy. It also collects matter (mass) that has been produced by other singularity events that may have long ago died or were consumed into our relativity.}

(worldline convergence)

SI multiples

Multiple Name

Symbol Multiple

Name Symbol

100 second

S 10 1 decasecond

daS10 –1 decisecond

dS10

2

hectosecond

hS

10

–2

centisecond

cs 10 3

kilosecond

ks 10 –3

millisecond

ms 10 6

megasecond

Ms 10 –6

microsecond

µs

10

9

gigasecond

Gs

10

–9

nanosecond

ns

10

12

terasecond

Ts

10

–12

picosecond

ps

10

15

petasecond

Ps

10

–15

femtosecond

fs

10

18

exasecond

Es

10

–18

attosecond

as

10

21

zettasecond

Zs

10

–21

zeptosecond

zs

10

24

yottasecond

Ys

10

–24

yoctosecond

ys

Attosecond

(This definition follows U.S. usage in which a billion is a thousand million and a trillion is a 1 followed by 12 zeros.) An attosecond is one quintillionth (10-18) of a second and is a term used in photon research. For comparison, a millisecond (ms or msec) is one-thousandth of a second and is commonly used in measuring the time to read to or write from a hard disk or a CD-ROM player or to measure packet travel time on the Internet. A microsecond (us or Greek letter mu plus s) is one millionth (10-6) of a second. A nanosecond (ns or nsec ) is one billionth (10-9) of a second and is a common measurement of read or write access time to random access memory (RAM). A picosecond is one trillionth (10-12) of a second, or one millionth of a microsecond. A femtosecond is one millionth of a nanosecond or 10-15 of a second and is a measurement sometimes used in laser velocimeter technologies.

© 2006 N. Romanski

© 2005 Nikola Romanski

© 2001 Nikola Romanski

© 2002 Nikola Romanski

Microwave plasmas go beyond tokamak.

Its been studied for how long? When will it be applied to what.

Let this research be applied to something specific. In this instance, the use of microwave frequency plasmas as a method of magnetohydrodynamic induction. a version of the reactor design but turned inside out. I call it electrogravitation because it is not anti gravity , it works with the forces of nature and is more at pro-gravitation (harmonic coupling). The light emitting from these devices while in operation is a result of the coronal discharge that has its etiology in dielectric / diamagnetic breakdown. the sound generated by the device is a whisper unless your acoustic acuity lays in the 5khz range. It has an ultrasonic effect at range which makes the hairs stand up on the back of your neck. This effect escalates from mild tingling static voltage to full on voltage induction with paralysis and potential death [instances of forced obe are not uncommon].

Other design potentials

Current research is focusing on the potential of this system as an alternative energy source.

Aerogel Technical

Guinness World Records approved the new aerogel's application for the least dense solid in March. Astronomer David Hawksett, Guinness World Records' science and technology judge, decided that Jones' aerogel beat out the previous record holder, an aerogel that weighed 5 milligrams per cubic centimeter (.00018 pounds per cubic inch.) Aerogel is pure silicon dioxide and sand, just as is glass, but aerogel is a thousand times less dense than glass because it is 99.8 percent air. It is prepared like gelatin by mixing a liquid silicon compound and a fast-evaporating liquid solvent, forming a gel that is then dried in an instrument similar to a pressure cooker. The mixture thickens, and then careful heating and depressurizing produce a glassy sponge of silicon. What remains is sometimes called "solid smoke," for its cloudy translucent color and super-lightweight. Surprisingly, this seemingly brittle substance is durable and easily survives launch and space environments. "It's probably not possible to make aerogel any lighter than this because then it wouldn't gel," Jones said. "The molecules of silicon wouldn't connect. And it's not possible to make it lighter than the density of air, 1.2 milligrams per cubic centimeter (.00004 pounds per cubic inch), because aerogel is filled with air." To change the density, Jones simply changes the amount of silicon in the initial mixture. At least as light as nitrogen if not lighter.

Superconducting Material Specifications

The major applications of high-temperature superconductors have mostly been confined to products in the form of wires and thin films. However, recent developments show that rare-earth REBa2Cu3O7-x and light rare-earth LREBa2Cu3O7-x superconductors prepared by melt processes have a high critical-current density at 77 K and high magnetic fields. These superconductors will promote the application of bulk high-temperature superconductors in high magnetic fields; the superconducting bulk magnet for the Magnetic Levitation in Electrogravitational Inductor Systems is one possible application.

Laminate

Layers of Diamagnetic, Superconducting and Aerogel / Cellulytic materials which have been bonded together by the use of heat, pressure and, possibly, adhesive.

Tolerances

Thickness: ±10%

Size (linear dimension): less than 100mm ±1mm

greater than100mm +2% / -1%

CONCLUSION

The engineering of the Electrogravitational DRIVE will no doubt be the challenge of the 21st century. Progress is being made to understand the exotic physics behind the DRIVE with all the disciplines necessary to design and engineer such a device. A good rule of thumb is to stand clear of approach vectors, electrical shock and paralysis may occur. OBE/Astral projection in proximity to device= not a good idea.

Transmigratus, past participle of transmigrare to migrate to another place, from trans- + migrare to migrate transitive verb :

to cause to go from one state of existence or place to another intransitive verb 1 of the

soul :

to pass at death from one body or being to another

Relativities of the deviation from the realtime

moment of singularity As perceived by our civilizations understanding of standard moments of/ in time.

Time Scales

The concept of time has been refined throughout history, and new understanding usually produces a new time scale.

redshifted

© 2001 Nikola Romanski

© 2002 Nikola Romanski

Microwave plasmas go beyond tokamak.

Its

been studied for how long? When will it be applied to .what Let this research be applied to something specific. In this instance, the use of microwave frequency plasmas as a method of magnetohydrodynamic induction. I call it electro gravitation because it is not anti-gravity

, it works with the forces of nature and is more at pro-gravitation. The light-emitting from these devices while in operation is a result of the coronal discharge that has its etiology in dielectric/diamagnetic breakdown. the sound generated by the device is a whisper unless your acoustic acuity lays in the 5khz range. It has an ultrasonic effect at range which makes the hairs stand up on the back of your neck. This effect escalates from mild tingling static voltage to full on

voltage induction with paralysis and potential death [instances of forced obe are not uncommon].

Other design potentials

Initially, this course of research focused mainly on axial discs, some of which have features that can potentially be used for interstellar vectors of astrogation. In the axial saucer designs, this is no longer necessary. Another generation of devices based on cylinder/ cigar type [dual magnetoionic circuits] is being manifest.

The purpose being greater in-flight stability and increased payload accommodation.

© 2003 Nikola Romanski

MASS MODIFICATION

The challenge presented by the title involves vast knowledge of several disciplines. I begin with the Lorentz Transformation of Special Relativity, which gives the result of an “infinite mass” at a velocity “c” and an “imaginary mass” at a velocity greater than “c”. Now, consider that if the “mass” were modified, or decreased to zero, then the object would be capable of reaching luminal speed, or the velocity “c”. If the “mass” were decreased below zero, hence a “negative mass” or an “imaginary mass”, then you would have an object capable of reaching superluminal speed, or a velocity greater than “c”. We would then refer to these objects as “tachyons”. How would one modify the “mass” of an object? The spacetime around an object can be modified by transforming the "virtual anti-photons" from the vacuum (ZPF) to scattered anti-photons, or negative energy [1]. In other words, the object radiates negative energy. This is accomplished by using a Quantum Electro-Dynamic (QED) process called “vector potentials”, which are expanded to interfering “scalar potentials” [2]. A Non-Linear Optical Effect is now applied called “

four

wave

mixing” resulting in the production of Negative Electromagnetic energy. It is important that this energy

be

radiated away because the space that is producing negative energy will begin to curve. This is the key to creating an “

ELECTROGRAVITATIONAL

FIELD”. Because the spatial energy density of 3D space is imbalanced, or the ratio of “virtual photons – to – anti-photons” is imbalanced,

the space

will curve. A "Flat Spacetime" means you have balanced virtual photons - to-

anti-photon

ratio which is a localized spin 2 "graviton" [1]. A ratio of

less

anti-photons to photons results in a positively curved spacetime, thus altering the spin number. Chaos Theory is now used to determine the new

spin

number. If we go back to where space begins to curve, General Relativity enters into the picture and Einstein's Theory of Gravity. The effect of an object that curves spacetime positively and a large mass such as a planet that curves spacetime negatively results in a repulsive force between the object and a planet. Increasing the radiated negative energy from the localized region of spacetime in and around the object will increase the repulsive force. Keep in mind that NO force is observed on the object because its

mass,

or the interaction of matter with the vacuum or Zero Point Field is lost, hence decoupled, the object can move luminally at the speed of light and beyond WITHOUT inertial effects!

Diamagnetism General Specifications

Whether an object will or will not levitate in a magnetic field B is defined by the balance between the magnetic force F = M B and gravity mg =

V g

where

is

the material density, V is the volume and g = 9.8m/s

2

. The magnetic moment M = (/ µ0)VB so that F = (/µ0)BVB = (/2µ0)VB2

. Therefore, the vertical field gradient B2

required for levitation has to be larger than 2µ0 g/

. Molecular susceptibilities are typically 10 -5 for diamagnetics and 10 -3

for paramagnetic materials and, since is most often a few g/cm 3 , their magnetic levitation requires field gradients ~1000 and 10 T 2 /m, respectively. Taking l = 10cm as a typical size of high-field magnets and

B 2 ~ B 2 /l as an estimate, we find that fields of the order of 1 and 10T are sufficient to cause levitation of para- and diamagnetics. This result should not come as a surprise because, as we know, magnetic fields of less than 0.1T can levitate a superconductor (= -1) and, from the formulas above, the magnetic force increases as B2

.

Aerogel Technical

Guinness World Records approved the new aerogel's application for the least dense solid in March. Astronomer David Hawksett, Guinness World Records' science and technology judge, decided that Jones' aerogel beat out the previous record holder, an aerogel that weighed 5 milligrams per cubic centimeter (.00018 pounds per cubic inch.) Aerogel is pure silicon dioxide and sand, just as is glass, but aerogel is a thousand times less dense than glass because it is 99.8 percent air. It is prepared like gelatin by mixing a liquid silicon compound and a fast-evaporating liquid solvent, forming a gel that is then dried in an instrument similar to a pressure cooker. The mixture thickens, and then careful heating and depressurizing produce a glassy sponge of silicon. What remains is sometimes called "solid smoke," for its cloudy translucent color and

super-light weight

. Surprisingly, this seemingly brittle substance is durable and easily survives launch and space environments. "It's probably not possible to make aerogel any lighter than this because then it wouldn't gel," Jones said. "The molecules of silicon wouldn't connect. And it's not possible to make it lighter than the density of air, 1.2 milligrams per cubic centimeter (.00004 pounds per cubic inch),

because aerogel is filled with air." To change the density, Jones simply changes the amount of silicon in the initial mixture. At least as light as nitrogen if not lighter.

Hint: UFOs in mexico and central america , natural deposits of silica sand. You figure it out.

Superconducting Material Specifications

The major applications of high-temperature superconductors have mostly been confined to products in the form of wires and thin films. However, recent developments show that rare-earth REBa2Cu3O7-x and light rare-earth LREBa2Cu3O7-x superconductors prepared by melt processes have a high critical-current density at 77 K and high magnetic fields. These superconductors will promote the application of bulk high-temperature superconductors in high magnetic fields; the superconducting bulk magnet for the Magnetic Levitation in Electrogravitational Inductor Systems is one possible application.

Laminate

Layers of Diamagnetic, Superconducting and Aerogel / Cellulytic materials which have been bonded together by the use of heat, pressure and, possibly, adhesive.

Tolerances

Thickness: ±10%

Size (linear dimension): less than 100mm ±1mm

greater than100mm +2% / -1%

The potential of Piezokinetics

Another consideration in the manufacture of composite secondary discs, is the introduction of gold or platinum /any nominal superconducting filament wrapped in quartz fiber that is embedded radially throughout the disc. The purpose of this being to more readily energize the circuit without means of external charging. Refers to undisclosed 28-B designs and explications on the balancing of circuit harmonics/ resonance while shunting voltage into or from flywheel storage milieu.

Verily multifacetous , investigations on bioelectromagnetic sheilding

are advised to gaurd against electric shock and paralysis. Other investigations include the generation of plasmas at microwave frequencies and the special properties of magnetohydrodynamic induction.

CONCLUSION

The engineering of the Electrogravitational DRIVE will no doubt be the challenge of the 21st century. Progress is being made to understand the exotic physics behind the DRIVE with all the disciplines necessary to design and engineer such a device. A good rule of thumb is to stand clear of approach vectors, electrical shock and paralysis may occur. OBE/Astral projection in proximity to device= not a good idea. See

tibetanconcepts of transmigration.

The only explanation that I can provide for my manifesting this is the fact that the dreams are more lucid and the holy spirit is upon me.

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Daniel Grant Wilks
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operational platforms to reach the stars

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main plasma drive

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complete drive system

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