Why can electric eels in the sea emit electricity? Do you know?

That's because they have some substances in their bodies that can generate electricity by rubbing them, and some eels produce very large amounts of electricity.

Because there are tens of thousands of muscles arranged on both sides of the tail of the electric eel, and there are also a lot of nerves connected to these muscles, and these muscles are equivalent to forming an electric plate, so the electric eel can generate electricity.

He knew that there was a lot of muscle tissue in his body that resembled small batteries, which could store a lot of electricity, so he could generate electricity.

I know that because of the unique property of these creatures, when they are frightened, their bodies release electric ions, so they are able to generate electricity.

I know, and it's one of their vital signs, and they usually protect themselves in this way when they're in danger.

The main reason is that the electric eel is charged in its body, so it can emit electricity, but it will not be electrorified by itself.

Because the structure of the electric eel is different from that of other fish creatures, its nerve cells and muscle cells will be discharged; There are a large number of dense sodium ions in the membrane of the cell membrane, but there is no sodium ion channel in the front membrane, so when the electric eel is discharged, the solidity of the whole cell will not cancel each other, thus generating voltage.

Because the constitution of electric eels is not the same as that of other animals. The principle is that there are some small tandem cells in the body of the electric eel, and when these cells are excited by nerve cells, they will be discharged.

Because when they are discharged, they are generally in water. <>

Eel. It is the freshwater fish with the strongest discharge capacity.

An adult electric eel can emit 300 800 volts of electricity, which can electrocute cows, horses, and many other animals larger than itself. The discharge capacity and intensity of an electric eel will vary with its size and age. The larger the eel, the stronger the ability to discharge, but it also weakens with age.

The sides of its tail are a special kind of musculature. Of these muscle tissues, there are about 6,000 to 10,000 muscle sheets containing plaque cells. A piece of muscle can produce a voltage of about 150 millivolts when working, and all power generation organizations can produce a voltage of about 600 volts when working at the same time, which is comparable to a small power plant.

The two sides of the electric eel body have a layer of highly insulated structure. When the electric eel is discharged, the insulators on both sides.

will be activated, and the electric eel itself will not be affected. However, if the insulators on both sides are not activated, the electric eel will be electrocuted. If we put electric eels in the water and put a certain voltage on them, these electric eels will be affected by the voltage in the water.

If the electric eel generates electricity on its own, the internal insulator of the electric eel will be activated, and the electric eel will not be electrocuted. But if you put an electric eel in the air, it will electrocute itself by generating electricity, because the resistance in the air is greater than that of an electric eel. <>

Electric ray. It is a bright fish that inhabits the bottom of the sea, with a maximum body length of 2 meters. There are two kidney generators under each side of the head, and there are nearly 2 million electric plates throughout the body.

These boards are separated by an insulating layer. When electrical rays send out nerve impulses, two kidney generators convert nerve energy into electrical energy. This creature is also widely distributed in the deep sea of China, such as the Bohai Sea and the Yellow Sea.

It is also a kind of organism with extremely high scientific research value. In addition to the electric eel, which discharges, the electric catfish also discharges, and it is a tropical fish.

It is mainly distributed in the Congo River in Africa.

Neighborhood. Due to its small size, the voltage is not very strong, only 200 volts at most, but it is enough to corona a living creature.

Electric eels generate electricity through the electrical discharge organs in the body. Because electric eels have something similar to an insulating tissue on their bodies, they will not electrocute themselves.

The electric eel has special neurons and reactors in its body, which can convert energy into electricity and release it, and it has insulators in its body.

The electric energy released by the electric eel instantly releases 800 volts of voltage, and the special muscle tissue on both sides of the body that generates electricity is the part of the electric eel. Why can electric eels discharge? I'll introduce you below.

In nature and in aquariums, electric eels have been observed electrocuting themselves or other nearby electric eels on several occasions. In the most unfavorable cases, the electric eel will electrocute itself by electrifying its own heart, causing cardiac arrest.

The vision of an adult electric eel will gradually deteriorate due to corneal damage caused by repeated electrical discharges until it becomes blind. Electric eels live in murky water, and loss of sight has little effect on them, and they can detect their prey by relying on specific discharge patterns.

Electric eels usually straighten their bodies before preparing to discharge, allowing the current to flow from one side of their tail to the other, so that it is not easy for electricity to reach their vital organs. In order to deliver a high-powered electric shock, the electric eel will bend its body into a U-shape, at which point its head must extend slightly beyond the end of the tail to avoid electricity reaching the brain. In confined spaces, electric eels usually do not use U-shaped discharges to avoid accidents.

When the water level drops due to drainage, such as pools and tanks where many electric eels live, the electric eels may be frightened and discharge indiscriminately, electrocuting themselves and their companions.

Some cartoons depict electric eels biting their prey while discharging, which in fact causes the electric eels to electrocute themselves. Electric eels have no teeth and usually stun their prey and swallow it, and will not attempt to bite their prey that is still moving.

Therefore, the electric eel is not completely unable to electrify itself, it also has the possibility of being injured by its own electricity, that is, when it leaves the water surface and does not touch the ground discharge, at this time it is surrounded by only air, and the conductivity of the air is very poor, then the current generated by the electric eel discharge can basically only be transmitted through its body, as if the wire itself has been short-circuited, at this time the electric eel will be charged to itself.

Why can electric eels discharge?

It turns out that there are "generators" on both sides of the electric eel's body (the tail is the strongest), that is, the special muscle tissue on both sides, which is composed of 6,000 10,000 muscle sheets (composed of electric plaque cells) arranged in a regular manner, and there is connective tissue between the thin sheets, from which many nerves go straight to the central nervous system of the electric eel, which also means that the electric eel's power generation phenomenon is controlled by the brain.

Biologists have found that each muscle sheet of an electric eel resembles a small battery that, when excited by nerve signals, abruptly sends a stream of ions through its cell membranes. Although it can only produce 150 millivolts, nearly 10,000 "small batteries" can be connected in series to produce hundreds of volts. However, the current it produces is very weak, generally less than 1 ampere, and the strongest is only 2 amperes, which is manifested as a short-term discharge of 1000 watts of pre-discharge Qingdian, which emits direct current, but the discharge frequency can reach 300 pulses per second, which can be discharged for 15 seconds, and the killing range in the river water can reach 6 meters in diameter.

Adult electric eels can reach more than one meter in length and can release high-voltage electricity ranging from 300-800 volts.

Electric eels are freshwater fish that can generate electric current, which can be generated through a special organ, the electrical organ of the Simplified. The electrical organ is located at the end of the electric eel's body and is made up of many muscle fibers that can produce up to 600 volts and 120 milliamps of current. When threatened, the electric eel will use its electrical organs to release electrical current to repel enemies or prey.

The reason for the discharge of electric eels is to survive and hunt. In the water, electric eels need to sense their surroundings and the location of their prey by generating talking currents in order to hunt. In addition, electric eels can also be used to defend themselves against predators and other aquatic creatures by discharging electricity.

In short, electric eel discharge is a special physiological phenomenon and an important means of its survival and reproduction.

The electric eel is an aquatic vertebrate that belongs to the eel family. They can produce powerful electric shocks through special organs, which they can use to hunt prey, defend themselves, or communicate information. This organ is called an electric organ or electric plate, and is usually located on either side of the electric eel's body.

Electric eel discharge is due to the presence of a large number of electrical cells in the electrical plate, and these liquid chain electrical cells present a structure similar to that of a battery, which can accumulate electrical charge and release electric current. When an electric eel wants to discharge, its control neurons send signals to the board, causing the charge to be released on the board early, forming an electric field and current, which eventually leads to a discharge.

The need to survive.

The discharge of electric eels is mainly due to the need for survival. Because the electric eel has to catch other fish and aquatic creatures, the discharge is a means of obtaining prey. The electricity it releases can easily kill smaller animals, and sometimes kill larger animals than it, such as horses wading in rivers and swimming cows.

Hello, on either side of the electric eel's body grows a special alienated cell, each of which can create a weak electric current by controlling the flow of sodium and potassium ions. Therefore, the cells composed of it are like a battery pack made up of thousands of small cells connected in series, and then connected by thousands of these cell structures, so that the electric eel can become a power source that can output high-voltage electricity.

The reason why the electric eel is charged is because it contains a large number of discharges in its muscles, and when the dischargers work, its head and tail play the role of positive and negative electrodes. It emits electricity between 500 and 700 volts, which is true high-voltage electricity in water.

In fact, it is to protect yourself in the deep sea. It's about 50 pieces, and if a person touches him, there's a good chance that he will be corona.

Because it is itself an object capable of conducting electricity. It is also to avoid the attack of some fish. It's about 100 volts.