The world works to improve the battery's energy savings. In Latvia, researcher Christophe Vitols, also engaged in it. Cognitive Impulse, on the LTV channel, says it should not be fully charged and fully charged.
What was the victory of civilization against electricity?
- In the 6th century in ancient Greece. Neck wipes purple wool and found static electricity.
- According to the Italian doctor Louisiana Galvani in 1771, he climbed to the bar when it was rolled over the stick.
- In 1800, the Italian physicist Alesandro Volta made the first electric battery.
- In 1820, André Marie Ampere realized the effects of the current magnetic field.
- In 1831, Michael Faraday found the electromagnetic induction and laid the groundwork for the construction of an electric motor.
- In 1879, American inventor Thomas Edison patented the first lamp.
When Faraday leaps to the prime minister of his country, the politician has asked him if he has any use. Faraji at that time – I do not know, but I'm sure he can collect the taxes.
In another science, the legendary person of Nikolai Tesla went on a different path – he gave the idea of free electricity to all people. The main idea of the Tossa drum is to generate electricity in the city center, but the lamps or any non-wire electrical equipment will receive the required energy. The problem is that the number of users is very small. Thus, the Tesla Reactive Idea is a costly and ineffective way to deliver electricity to consumers. Who knows, the idea of an electric power, which is available as a wireless web, is wrong.
James M. Makswell's idea is much better than working. His idea of how the electric magnet on the moving electric current produced a major breakthrough in the development of civilization. Excites electrons such as magnetic water. By the way, the same electricity is often used for such comparisons, while existing water or current and current and all relevant units of measurement.
Basic principles of electric physics
Then what is the power? These electrons are small particles in small atoms. To understand how the electrons are formed as electrical energy, you need to consider some of the basic principles of physics.
Physicists, in any case, illustrate the electrons, which are not very important but still have gravitational forces, but like balls that are different from other people. Atoms with no electrons are interacting with other particles – protons. Usually, no protons in the atom, so electrons, and we feel special electric discharge. As time goes by, for example, when we are hitting one page over another, we eject the electrons from one side of the body to another, and then the number of particles changes and they begin to absorb the particles of other substances. All of this can be measured as an electric power.
The electric charge can be transferred from one location to another. For example, when spattering the hair, it can be applied to synthetic clothing, even if it pulls feet on the floor and even touches the metal objects.
On the other hand, the electromagnetic field determines whether electrons act as a stream or direct current, or 50 times per second generating AC currents.
Energy conservation research
Currently, all types of electricity generation produce alternating current, excluding solar energy. However, only direct current can be accumulated. Direct current is energy stored on a regular battery, and battery types perform different tasks: device management, generated energy.
The dependence on batteries depends on how long and how long the batteries can be stored. On the other hand, the charging device affects the operation of these components. "At a time when energy is being accumulated, some ions move from one side to the other, and electricity does not come in. When charging the battery, wait for the ions to align on the other side. We attach the external load, and the flow starts flowing backward, and the ions move backward. That is why they are at the second equilibrium point, "explains Christophe Vitels, researcher at the Riga Technical University (RTU) Institute of Industrial Electronics and Electrical Engineering.
If batteries are empty or do not follow their instructions, they will not perform the necessary reactions, so the parts will not be in the right places. "It is wrong to completely dismount the battery. After all, the ions are on the other side and they are replaced, the longer they last, the more they want to stay there. Then the battery begins to decline. It does not collect as much and can not work for a long time, "Vitol says.
This means that the battery should not be fully charged and fully charged. "In one case, ions remain on one side and the other on the other side.
These two points destroy the battery, "said the researcher.
Recently, batteries were considered partly recharged because they symbolically reminiscent of their condition and did not try to fill them completely. It turns out that this is not a myth or reality because everything is made of batteries. "Lithium-ion batteries are not memorable. Previously, nickel-cadmium batteries were remembered – if they were half a half, only half had worked, "Vitol says.
In order to further enhance the battery's ability to conserve energy, the world does not create millions of people in this area. In Latvia, Cristapz Vitols is one of the scientists involved in the search for battery life, and cares about them like living organisms. "Without electronics, chemistry and material science, it is united to make batteries longer, better, and cheaper. Whenever they need to be transplanted, cells must be combined with the schemes that care for the well-being of each cell, "said the researcher.
The riches of the battery are temperature-dependent, but they can move in order to have electrons that they collect.