Harmonic resonance of the capsule at the cellular level

The nucleus of a living cell consists of tubular threads and chromosomes, which are made of insulating material and filled with a conductive fluid containing all the mineral salts found in seawater. These threads are small oscillatory circuits, endowed with capacitance and inductance, and capable of oscillating at a specific frequency. They can be compared to circuits, coils, and windings of radio receivers.

A cell can be compared to a radio transmitter when it emits energy and information.

By the inductance of a cell, we mean the ability to induce or place electricity into every cell of your body. By capacitance, we mean that each cell of the body can hold an electric charge.

For example, a battery can carry an electric charge. In the case of a car battery, the charge is delivered through wires or battery cables. In the case of your body, the charge is transmitted via invisible yet real waves.

Thus, a living cell can act as a transmitter or receiver of extremely short radioelectric waves, which induce high-frequency currents in the circuits of the cell nucleus.

Another example. You use a television receiving signals from a broadcast tower operating 24/7. Its waves are so weak that they have no noticeable effect on the body. To detect this effect, you turn on the TV. When the current passes through the “circuits, coils, windings,” the sound and picture indicate that information is being transmitted.

Now the television oscillates in harmony with the generator on the tower. The transmitter and receiver are mutually synchronized.

Similarly, cells can tune into resonance—emitting and receiving waves and information.

In the case of the capsule, these are very beneficial waves and information that restore the health of the cells.