Please ask about the biology aspect, especially the bioelectric aspect!

Bioelectricity production is spontaneous and at the same time influenced by consciousness.

The brain controls muscles through nerves, and this process is the process by which bioelectrical signals are transmitted by nerves. For example, when you are thirsty, your brain cells will send out an electrical impulse, which is transmitted by the nerve to your hand muscles, directing the muscles to complete the action of "pouring water, drinking water".

So do you say that bioelectricity is produced by people consciously?

To date, there is no evidence that bioelectricity can be delivered in vitro. Although the electrical waves generated by the electric currents in the body can be detected outside the body (e.g., EEG, ECG), no known organism in nature has a receptor to receive these nerve waves.

In fact, evolutionary theory suggests that organisms with this ability are more likely to be eliminated. Because the nervous system is a fragile thing, and the universe itself has a strong electromagnetic field noise, if the creature is sensitive to it, it is easy to cause mental disorders.

You're watching sci-fi, huh. When I played Red Police, it seemed that there was a Yuri who had this ability...

As long as it is a living organism, whether it is conscious or not, it will produce bioelectricity, and the cell is the basic unit of bioelectricity production.

Which of the narratives about bioelectricity is false: the amplitude of receptor potentials and postsynaptic potentials is greater than that of action potentials.

Bioelectricity is described as follows:

Changes in the potential and polarity of organs, tissues, and cells of living organisms during life activities. It is a kind of physical, physical and chemical changes in the process of life activities, which is the manifestation of normal physiological activities and a basic feature of biological living tissues.

More than 200 years ago, human beings discovered the fact that the animal body was electrified, and used the bioelectric ** psychosis that occurred in electric rays. At the end of the 18th century, lGalvani discovered the phenomenon of contraction of frog muscle when it comes into contact with loops composed of different metals, and proposed the front point of the "animal electricity" of the balance fiber.

However, it was overturned by Volt to prove that the contraction of the frog muscle is only due to the conductive liquid contained in the frog muscle, which connects the different metals tied to the two ends of the frog muscle into a closed loop, which is the key to generating electricity. Later cMatthiuschi, Dubois Raymond and L

The work of Herman et al. has proved the existence of bioelectricity.

At the beginning of the 20th century, wEinthofen uses a sensitive chordalometer to measure the faint biocurrent directly. 1922, Gasser and JEv Ephyaulange was the first to use a cathode ray oscilloscope to study the nerve action potential, laying the technical foundation of modern electrophysiology.

In 1939, Hodgkin and Huxley inserted microelectrodes into the large nerve of the squid and directly measured the potential difference between the inside and outside of the nerve fiber membrane. This technological innovation has promoted the development of electrophysiology theory.

In 1960, electronic computers began to be used in electrophysiological research, so that evoked potentials could be clearly distinguished from spontaneous brain waves, and the parameters emitted by cells could be accurately analyzed and calculated.

Changes in the potential and polarity of organs, tissues, and cells of living organisms during life activities. It is a kind of physical, physical and chemical changes in the process of life activities, which is the manifestation of normal physiological activities and a basic feature of biological living tissues.

Dr. Koyama gave a micro-lecture: "The Discovery of Bioelectricity".