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Chapter 2: How to experiment(OLD VERSION)

My theory and the phenomenon which comes of my theory can be easily verified as follows. You fix a cable on a superconductive magnet tightly according to the shape of its coil. You connect the cable with a power source to make a loop. The cable is made to be a normal-conductive electromagnet with taking a coil. You send a very low voltage ripple current made by rectifying a single-phase alternate current and not smoothing it to this device made of the superconductive magnet and the cable. Then, you measure the weight of this device.

[ Figure 3 ]
The experimental figure: a floor plan from above to see my device


One superconductive magnet, one cable, one ripple current power supply, one scales for weighing are necessary. The ripple current power supply will be better if it is a power simulator. The necessary work is to fix the cable to the superconductive magnet tightly to make a loop and to connect the cable to the power supply and to put the device on the scales and to send a very low voltage ripple current and to measure the weight of the device.
Between the loop of the superconductive magnet and the loop of the cable, the law of action and reaction is effective. Though in my theory the electromagnetic force of the magnetic field of the ripple current flowing through the cable acts on the eternal current which flows through the superconductive coil, the electromagnetic force cannot move electron pairs composing the eternal current. The barycentric motion of electron pairs must follow macro quantum effect "momentum order" which causes the phenomenon of eternal current. In the momentum order, the barycenter of electron pairs composing an eternal current must change the momentum all together.
In addition to the shape of the waves of the ripple current, as the magnetic field of the ripple current moves at very much high-speed, the magnetic field does not give all electron pairs the impulse above the fixed value in the fixed time. Therefore, the motional component of the momentum of electron pairs by the impulse of the electromagnetic force of the magnetic field of the ripple current, that is, the electromagnetic force of the superconductive coil does not occur. Because the superconductive coil cannot get the momentum perpendicular to the direction of eternal current from electron pairs. By this, only the electromagnetic force acting on the cable is left.
Therefore, the motional component which should arise in the super electron pairs, that is, the electromagnetic force which should arise in the material of super conductive coils by getting kinetic energy from the eternal current's motional component perpendicular to the direction of the eternal current, does not arise. By this, only the Lorenz force acting on the cable remains.
As a result, when the direction of the ripple current is the same as the eternal current of the superconductive magnet, the downward force of the cable acts on the device. Then, you will measure the increased weight of the device. When the direction of the ripple current is opposite to the eternal current of the superconductive magnet, the upward force of the cable acts on the device. Then, you will measure the decreased weight of the device. For the experiment I temporarily suppose the strength of the magnetic field of the superconductive magnet to be 5T, the strength of the ripple current to be 100 A, the length of the cable to be 0.5 meters.
By the formula of "F=BIL",
5*100*0.5=250
Maximum force in this case is 250N. That is, you can observe anomaly of the weight, about 25-kilogram weight. But, the voltage of the ripple current in this case is below 1 volt.
As for my device, the usefulness for industries is very high. The force making the anomaly of the weight on my device can be used as propulsive force, flotage and braking power.

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