Not only do electric eels have electricity, but all other animals have electricity, but electric eels are the most important. Electric eels are made up of countless electrical cells called bioelectricity, which are not permanent. When the electricity is discharged, it will be microelectric for a period of time and it will take time to replenish it. It is a characteristic of the species, used for self-defense and as prey. Humans also have bioelectricity, but they cannot be aware of it. Because it is very weak, only electrocardiograms and other instruments can detect it and use it to detect damage.
Not only do electric eels have electricity, but all other animals have electricity, but electric eels are the most important. Electric eels are made up of countlesselectric cells called bioelectricity, which are not permanent. When the electricity is discharged, it will be microelectric for a period of time and it will take time to replenish it. It is a characteristic of the species, used for self-defense and as prey. Humans also have bioelectricity, but they cannot be aware of it. Because it is very weak, only electrocardiograms and other instruments can detect it and use it to detect damage.
Generation is the directional movement of electrical charges. There are generally two methods of generating electricity. One is a mechanical method, such as a generator, which converts mechanical energy into electrical energy. Another chemical method, like a galvanic cell, which converts chemical energy into electrical energy?
The principle of electricity production by the electric eel is a chemical methodthat. The cells form tiny primary batteries, which are connected in parallel and series to increase voltage and current. Through novel matrix metabolism, redox reactions transfer electrons to generate voltage. The artificial simulation successfully produced a bacterial battery. Land batteries are a type of air battery. They use enzymes as catalysts to oxidize organic matter to generate power, but the power is low and can be used for lighting. To improve efficiency, you have to work hard on the electrodes.
In fact, it is instantaneous high-voltage static electricity, which is different from the continuous power output of a generator.
Static electricity also exists in the human body. For example, if you wear chemical fiber clothing in winter, your body will be charged with static electricity!
When vou shake someone's hand, you will shock others, or be shocked! It's just very weak!
Some cells in the electric eel's body look like small stacked batteries. When excited by nerve signals, they can suddenly send ions flowing across their cell membranes. Electric eels have cells like these from head to tail, like many laminated batteries stacked on top of each other.
When an electric current is generated, all of these cells (each with a voltage of approximately 0.15 volts) are connected in series, creating a very high voltage between the head and tail of the eel. Many of these batteries are connected in parallel to generate enough current outside the body.
The stimulated cell nuclei discharge, forming a high voltage in series, and the human body is also filled with electricity.
It’sdirect current. The current generated by electric eels during discharge is extremely small, mainly in voltage. The output voltage of electric eels can reach 300 to 800 volts, which is why electric eels are known as "high voltage lines" in water.
The electric eel was selected as one of the "world's most terrifying freshwater animals" listed on the National Geographic magazine website. “There are dozens of fish species known to produce electricity around the world. Other fish capable of discharging electricity include the electric catfish, electric stingray, etc.
Detailed information:
Discharge principle:
Some Electric eel cells look like small laminated batteries. When stimulated by nerve signals, they work. can A fsudden flow of ions across its cell membrane. Electric eels have cells like these from head to tail, like many laminated batteries stacked on top of each other.
When an electric current is generated, all of these cells (each with a voltage of approximately 0.15 volts) are connected in series, creating a very high voltage between the head and tail of the eel. Many of these batteries are connected in parallel to generate enough current outside the body.
The electric current is sufficient to stun or kill its prey or natural enemies. Freshwater electric fish require more series-connected batteries because freshwater has higher resistance and requires a higher voltage to generate the same current.