Drinking water which was placed on a beehive has many heath benefits! 10 ethanol gas problems

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Around a hive there is an electrostatic field of 60 cm and the water placed inside of it becomes charged. They say different kind of waves are met in the proximity of hives: electrostatic, electromagnetic, microwaves and infrared radiation. All of them offer a bio-resonance effect on human body and lead to an improved and balanced health.

Beekeepers are healthier and live longer lives not necessary because they eat more honey, propolis, pollen and royal jelly, but because they work in apiaries where the surrounding energy created by the bees triggers a self-healing of the body, just like in bio-resonance therapy.

It is said that regularly drinking this water (about 1 liter a day) will have a great beneficial effect to your body. It works positively on the course of youy metabolic and psychological illnesses. It can be frozen or left at room temperature, because it doesn’t spoil. You can even use it to make tea as short heating does not cancel its effects.

Bee-influenced wine will gain the taste and the parameters of wine from the higher price category. In addition, the healing effects of the wine which was placed above a hive are greater than that of water. What does science say about this electric field around hives?

In 1895 it was discovered that feathers of birds and hairs of mammals store an electric charge created by friction with other materials, a phenomenon of surface charge in animals and humans. But recently it was also shown that insects’ cuticle also accumulates electric charge by friction.

The wax layer of their exocuticle causes a high electrical resistance between the inner and outer parts of the body, and along the body surface, and this leads to charge accumulation when insects walk or fly. The charge in the surface of the insects is a biological phenomenon reflecting their movements and the movements of their body parts.

In 2013 a team of German researchers conducted by Uwe Greggers analyzed whether and how electric fields are produced and received in honey bees, and measured the static and modulated electric fields of flying, landing and dancing bees, monitored the movement of the antennal flagellum and associated the activity of the mechanosensory neurons of Johnston’s organ ( study)

They found that bees emanate modulated electric fields when moving their wings and body during the waggle dance. When bees walking stationary on a treadmill were stimulated with the modulation patterns of these electric fields in the absence of any mechanical stimulation they responded selectively and more strongly to the natural field patterns. Bees were also able to associate constant and modulated electric fields with reward. Ablation experiments show that mechanoreceptors of the antennae are most probably involved in sensing electric fields.

The electric charge carried by bees arriving at the hive entrance was measured with an electrometer array consisting of eight electrodes. The electrodes picked up the electric field at a distance of 2–3 cm, both during the last 1–2 cm of flight and after landing.

The body charge dissipates very little on landing (usually less than 5%) and stays high also within the hive because the relative humidity in the hive is usually lower than outside (U. Greggers 2009, 2010, personal observations: less than 60% even at greater than 90% outside).

The side-to-side movements were synchronized with buzzing of the wings, leading to an average of three to five (range 1–8) electric pulses. These pulses originated from the wing vibrations at 230 Hz (s.e.±5 Hz, n = 300) leading to a voltage of typically 200 V (s.e.±60 V, n = 300) as measured at a distance of 6–9 mm.

· Dancing bees produce air flows and electric fields, both of which induce vibrations of the antennal flagellum. The electric fields produced by the movement of the bee’s wings even at very low amplitudes, as in dancing bees, induce movements of the antennal flagellum 10 times more strongly than the mechanical stimulus of the wing alone.