The Kinetic Quantum Theory of Gravity predicts that the weight can be controlled by means of specific electromagnetic processes. The most simple process can be observed when an alternating electric current passes through a ferromagnetic wire . It was observed a strong decreasing in the weight of a mumetal wire when an electric current with extremely-low frequency passes through it. We have summarized in some slides the presentation of a general process for gravity control based on this recent discovery. This phenomenon is absolutely new and unprecedented in the literature and it leads to novel concepts for Transportation, Communications and Energy Generation Systems. :

The Kinetic Quantum Theory of Gravity predicts that the weight can be controlled by means of specific electromagnetic processes. The most simple process can be observed when an alternating electric current passes through a ferromagnetic wire . It was observed a strong decreasing in the weight of a mumetal wire when an electric current with extremely-low frequency passes through it. We have summarized in some slides the presentation of a general process for gravity control based on this recent discovery. This phenomenon is absolutely new and unprecedented in the literature and it leads to novel concepts for Transportation, Communications and Energy Generation Systems.

By digitizing the top of the ELF waves, as shown in the figure beside,we may produce a ELF working wave, which obviously becomes much more adequate for practical use in Gravity Control.:

By digitizing the top of the ELF waves, as shown in the figure beside, we may produce a ELF working wave, which obviously becomes much more adequate for practical use in Gravity Control.

Gravitational Lift Force:

Gravitational Lift Force Consider a coil of mumetal wire. The diameter of the wire is 0.005” = 0.127mm ( S = 1.27E-08 m2); = 8740 Kg/m3; = 1.9E+06 S/m; r = 100,000. The total length of the wire is 10,000m and its inertial mass is 1.1Kg. Through the wire passes an ELF working current with (tops) frequency f = 10 mHz ; the amplitude is io = 0.36 A.
Substitution of these values into equation of P shows that the weight of the coil is totally inverted , i.e., when the current passes through the coil the weight of the coil becomes equal to
P = – mi g = – (1.1)(9.8)= – 10.8 N
Note the dimensions of the Coil

Rocket Motor:

Rocket Motor We can increase the gravitational lift
force simply by increasing the diameter of
the wire or its length, or by increasing the
number of coils. Increasing the diameter
of the wire 5 times and making the
number of coils = 1000 the inertial mass
of the Rocket Motor will be MRM =
– 1.1Kg 25 1000 = – 27,500 Kg and
consequently it produces PRM = – 27,500
9.8 = – 269,5kN of thrust. Note that
to increase 5 times the diameter of the
wire we must also increase 25 times the
value of i0 ( see Equation of P ). Thus i0
must be increased to 9A.

Slide8:

Next we will see that the size of the rocket motor can be strongly reduced using
Gravitational Shielding.

Gravitational Shielding:

Gravitational Shielding

Rocket with Gravitational Shielding:

Rocket with Gravitational Shielding PAS = MAS g ( MAS > 0 )
PGS = MGS g ~ 0 ( MGS > 0 )
PRM = MRM g ( MRM < 0 )
The acceleration of the rocket will be:
a = ( PAS + PGS - PRM) / MAS
If PRM =10,800Nand MAS =150Kg
then a 62.2 m/s2. At t = 10s the speed will be V = 2,239.2 Km/h
Note that the speed does not depend
on the total inertial mass within the
shield. It can have several tons , for
example.
Note the size of the motor has been strongly reduced

The dimensions of the Rocket Motor( Rocket with and without Gravitational Shielding):

The dimensions of the Rocket Motor ( Rocket with and without Gravitational Shielding) 0.80m 2.5m 25.0m 4.0m - 269,500 N -10,800 N

Gravitational Spacecraft:

Gravitational Spacecraft Gravitational Shielding T a F mi As we have seen the sphere or the ellipsoid are the ideal shapes for the gravitational shielding. However from the Aerodynamical viewpoint the ellipsoid is more suitable. Thus we will give the ellipsoidal shape for the Gravitational
Spacecraft. mi is the inertial mass of the spacecraft

Slide13:

According to Eq.6 of Kinetic Quantum Theory of Gravity the non-relativistic expression for inertial forces is now given by
F = mg a
Only in the particular case of mg = mi the expression above reduces to
the well-known Newtonian expression F = mi a . Thus, the acceleration of the spacecraft will be a = F/ mg. We have seen that mg can be strongly reduced by means of the gravitational shielding (independently of mi).
Let us consider that in the beginning mg = mi =30,000Kg and that when the shielding is actived mg is reduced to 1 Kg. The thruster provides a small thrust of F = 100N then the spacecraft acquires an acceleration a = F/ mg= 100N / 1Kg =100m/s2 . Therefore at t = 10s it reaches V = 3600Km/h.
Note that the spacecraft will be transporting mi = 30,000 Kg with this speed.

Gravitational Spacecraft = Inertial Properties =:

Gravitational Spacecraft = Inertial Properties = Due to the shielding the gravitational mass of the spacecraft, mg , can be strongly reduced and consequently the gravitational interaction between the spacecraft and the rest of the Universe will also be strongly reduced.
The new non-relativistic expression for inertial forces, F = mg a, shows that inertial forces upon the spacecraft will also be strongly reduced. This means that the spacecraft will have its inertial properties strongly reduced, i.e, the inertial effects upon the crew of the spacecraft will practically disappear.

Rotational Gravitational Motor:

Rotational Gravitational Motor The Rotor of the Motor ^^ Axis of the Rotor r F = mg g = mi g Mumetal wire
Length = l
Area of Cross
section =S mi g mi is the inertial mass of the mumetal wire mg is the gravitational mass of the Mumetal wire
mg = mi Mumetal Plate

Slide16:

Dimensions of the Rotor: ( 70cm diameter;100cm length) Encapsulation ELF current ON ELF current OFF r The average mechanical power P of the Motor will be
P =T = (n F r) = n ( mi g ) r =
= n ( S l ) g r
where n is the number of Mumetal Plates and the angular speed. F Thus the expression of P reduces to For n = 200, =10, S =3E-07 m2, l = 200m, = 8740 Kg/m3, g=
= 9.8m/s2 and r = 0.20mwe obtain
P = 45,503.7 W 61 HP.

Quantum Gravitational Antennas:

Quantum Gravitational Antennas (Mumetal ELF Antennas) On the whole an antenna is simply a wire, of length z0, conducting an oscillating current. Consider a Mumetal wire of length z0 in which passes a ELF electric current ie = i0 sin t = i0 sin 2ft . According to Eq. 59 of Kinetic Quantum Theory of Gravity the gravitational mass, mg, of the Mumetal antenna is given by
where , , and S are respectively the density, the magnetic permeability, the electric conductivity and the area of the antenna cross section.
This equation shows that the ELF electric current yields a oscillation in the gravitational mass of the antenna.

Slide18:

It is known that the gravitational interaction is instantaneously communicated to all the particles of the Universe, by means of gravitational "virtual" quanta. Then speed of these gravitational "virtual" quanta must be infinite.
Therefore when the gravitational mass of the Mumetal antenna changes, the changes ripple outwards through spacetime with infinite speed and the changes will be detected instantaneously by all particles of the Universe, i.e., the gravitational "virtual" quanta emitted from the antenna will instantaneously reach all particles.
When a particle absorbs photons, the momentum of each photon is transferred to particle and, in accordance with Eq.41, the gravitational mass of the particle is altered. Similarly to the photons the gravitational "virtual" quanta have null mass and momentum. Therefore the gravitational masses of the particles are also altered by the absorption of gravitational "virtual" quanta.
If the gravitational "virtual" quanta are emitted by an antenna ( like a Mumetal antenna) and absorbed by a similar antenna, tunned to the same frequency , the changes on the gravitational mass of the receiving antenna, in accordance with the principle of resonance, will be similar to changes on the transmitting antenna. Consequently the induced current through the receiving antenna will be similar to the current through the transmitting antenna.

Slide19:

The scattering of the gravitational “virtual” radiation is null. Therefore the intensity of the radiation emitted from the antenna is not relevant like in the case of the electromagnetic radiation. Consequently the gravitational "virtual" radiation or gravitational "virtual”waves would be very a suitable as a means of transmitting information at any distances including astronomical distances.

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