What is a current source? What is it? Current source - classification and purpose. Ideal current source

Rice. 2. Luigi Galvani ()

The operation of a galvanic cell is based on a chemical reaction.

The most common galvanic cell is a battery (from the word battery - a set of galvanic cells).

Let's consider the design of a battery: several galvanic cells are interconnected and located in a common box, and are also equipped with common contacts.

Let's consider the design of the simplest galvanic cell (Fig. 3).

Rice. 3. The design of a simple galvanic cell. ()

Inside the zinc glass there is a paste (consists of flour and ammonia). Inside the paste there is a linen bag containing coal and manganese oxide. A carbon rod is inserted inside the bag. When ammonia interacts with zinc, the zinc acquires a negative charge, and the carbon rod acquires a positive charge. As a result, charge separation occurs between the zinc glass and the carbon rod.

When several galvanic cells are connected, a battery is obtained.

In addition to galvanic cells, also widely used batteries - they can work for a long time and create an electric current in the circuit.

Exist alkaline And acidicbatteries(depends on what substance is involved in the chemical reaction).

Rechargeable batteries must be charged to operate (unlike batteries, which are predominantly “disposable”, meaning they only last for one “working” cycle). Batteries are a very important element for ensuring the movement of electric vehicles.

In this lesson we found out the conditions of existence electric current, and also got acquainted with current sources.

In the next lesson we will get acquainted with electrical circuit and its components.

Bibliography

1. Gendenshtein L. E., Kaidalov A. B., Kozhevnikov V. B. Physics 8 / Ed. Orlova V. A., Roizena I. I. - M.: Mnemosyne.
2. Peryshkin A.V. Physics 8. - M.: Bustard, 2010.
3. Fadeeva A. A., Zasov A. V., Kiselev D. F. Physics 8. - M.: Education.

Homework

1. P. 32, questions 1-7 - page 77, task 6 (1). Peryshkin A.V. Physics 8. - M.: Bustard, 2010.
2. Does an electric current occur when a charged metal ball is grounded?
3. Positively and negatively charged hydrogen ions combine to form a hydrogen atom. Is it possible to talk about the presence of current during the interaction of these ions?

Additional precommended links to Internet resources

1. Internet portal Mukhin.ru ().
2. Festival of Pedagogical Ideas " Public lesson» ().
3. Internet portal Powerinfo.ru ().

Current source - it's easy!

A current source is a device in which some type of energy is converted into electrical energy.
In any current source, work is done to separate positively and negatively charged particles, which accumulate at the poles of the source and create an electric field between them.
If the poles of the source are connected with wires, then an electric current will flow through them.

Exist different kinds current sources:

Mechanical current source

Mechanical energy is converted into electrical energy.

These include: an electrophore machine (the disks of the machine are driven into rotation in opposite directions.

As a result of the friction of the brushes on the disks, charges of the opposite sign accumulate on the conductors of the machine), dynamo, generators.

Thermal current source

Internal energy is converted into electrical energy.

For example, a thermoelement - two wires made of different metals need to be soldered at one end, then the junction is heated, then a voltage will appear between the other ends of these wires.
Used in temperature sensors and geothermal power plants.

Light current source

Light energy is converted into electrical energy.

For example, a photocell - when certain semiconductors are illuminated, light energy is converted into electrical energy. Solar batteries are made from photocells.
They are used in solar batteries, light sensors, calculators, and video cameras.

Chemical current source

As a result chemical reactions internal energy is converted into electrical energy.

Galvanic cell- a carbon rod is inserted into a zinc vessel. The rod is placed in a linen bag filled with a mixture of manganese oxide and carbon. The element uses a flour paste with ammonia solution.
When ammonia interacts with zinc, the zinc acquires a negative charge, and the carbon rod acquires a positive charge. An electric field arises between the charged rod and the zinc vessel. In such a current source, the carbon is the positive electrode, and the zinc vessel is the negative electrode.
In a galvanic cell, the electrodes must interact differently with the solution. Therefore, electrodes are made from different materials.

A battery can be made from several galvanic cells.

What does it mean the battery is dead?

This means that the electrodes or solution in the galvanic cell have already been used up. The galvanic cell (battery) should be replaced with a new one.

Current sources based on galvanic cells are used in household autonomous electrical appliances and uninterruptible power supplies.

Batteries

Batteries are chemical sources current in which the electrodes are not consumed.
For example, the simplest battery consists of two lead plates immersed in a sulfuric acid solution.

Before use, the battery must be charged, i.e. connect the battery poles with similar poles of some current source. When charging, the chemical energy of the battery increases.

After use, a discharged battery can be charged again. When a battery discharges, it converts chemical energy into electrical energy.

Batteries are either acidic or alkaline.
Batteries can be assembled from individual batteries.
Batteries are used when it is more profitable to recharge the current source than to replace it with a new one.
For example, in space, batteries are charged from solar panels. When discharged, they power the spacecraft equipment.

LEGEND

Symbol current source to electrical diagram

or a battery consisting of several sources

BOOKSHELF

FROM THE HISTORY OF INVENTION

Luigi Galvani (1737-1798) - one of the founders of the doctrine of electricity; his experiments with “animal” electricity marked the beginning of a new scientific direction- electrophysiology. As a result of experiments with frogs, Galvani suggested the existence of electricity inside living organisms

Curiosities in science.

The wife of anatomy professor at the University of Bologna Luigi Galvani, who had a cold, required care and attention. Doctors prescribed her a “strengthening broth” made from frog legs. While preparing frogs for broth, Galvani discovered the famous “living electricity” - electric current.

The Leyden jar is the first source of current.

By the middle of the 18th century. In Holland, at the University of Leiden, scientists under the leadership of Pieter van Muschenbrouck found a way to accumulate electrical charges. Such a storage device for electricity was a Leyden jar - a glass vessel, the walls of which were lined with lead foil on the outside and inside. A Leyden jar, connected by plates to an electric machine, could accumulate and store a significant amount of electricity for a long time. The discharge of the Leyden jar had sufficient power. If its plates were connected with a piece of thick wire, then a strong spark would jump at the point of the short circuit, and the accumulated electric charge disappeared instantly. This made it possible to obtain a short-term electric current. Then the jar had to be charged again. Now similar devices we call electrical capacitors.

This discovery made a huge impression on all people, even those completely far from science. Everyone wanted to experience the electric discharge on themselves and see its effect on others. The inventors of the Leyden jar, Kleist and Muschenbreck, were the first to experience the shock of charges: the first of them, after the test, did not want to repeat the sensation even for the Persian throne, the second agreed to suffer for the sake of science.
Doctors also took up the Leyden jars. In 1744, Kratzenstein from Halle cured the paralysis of a finger with a discharge, then Gilbert breathed life into the carpenter’s hand, which had become numb from the blow of a hammer. The audience groaned with anticipation, everyone wanted immortality.

Invention of the galvanic cell.

The first electric battery appeared in 1799.
It was invented by the Italian physicist Alessandro Volta (1745 - 1827) - Italian physicist, chemist and physiologist, inventor of a source of direct electric current.

One day he picked up physiologist Luigi Galvani’s treatise “On Electrical Forces in Muscle” and realized that a frog’s leg began to twitch only when it was touched with two different metals. Galvani didn't notice this! Volta decides to try Galvani's experiment on himself: he took two coins from different metals and put them in his mouth - on top, on the tongue, and under it. Then he connected the coins with a thin wire and tasted the salted water.
Volta knew very well that this is the taste of electricity, and it was born from metals.
This is how the simplest Volta element works:

Volta's first current source, the “voltaic pole,” was built in strict accordance with his theory of “metallic” electricity. Volta alternately placed several dozen small zinc and silver circles on top of each other, placing paper moistened with salted water between them.

Volta was also the first tester of his device. The scientist lowered his hand into a bowl of water, to which he connected one of the contacts of the “pillar”, and attached a wire to the other contact, with the free end of which he touched his forehead, nose, and eyelid. He felt either a prick or a sharp blow - and he carefully recorded all this. Sometimes the pain became unbearable - and then Volta opened his chain. He realized that his “pillar” was a source of direct current.
In 1800, a letter from Volta appeared in the journal of the Royal Society of London describing the “Voltaic Column.” This is how the world's first electric battery was invented. Although the power of the Voltaic column would only be enough to light just one weak lamp.

And the famous Russian scientist Petrov in 1802 made a huge battery. It consisted of 4,200 copper and zinc circles, between each pair of which cardboard circles soaked in ammonia solution were placed. This battery consisted of 2100 copper-zinc galvanic cells connected in series. The voltage at its terminals was about 1650-1700 V.
It was the first relatively high-voltage direct current source in history.

DO IT YOURSELF

Thermocouple from an electric lamp

If you take electric lamp without a glass container, screw it into a cartridge mounted on a stand and connect it to a galvanometer, then when heated with a burning match at the junction of the spiral with the wire, the galvanometer will show the presence of current.

Leyden jar

A Leyden jar (or capacitor) is easy to make yourself. For this you need a glass jar.
The walls of the can from the outside and inside You need to cover 2/3 of it with foil (no folds!). Then take a plastic lid and insert a metal rod into the middle of it. Place a metal (or any other material, but covered with foil) ball on the upper end of the rod. Make a brush out of foil and attach it to the lower end of the rod so that it closed lid touched the bottom. Close the jar with a lid - and the device is ready!
To charge the jar, touch the ball with, for example, an electrified plastic comb. To increase the charge, do this several times, re-electrifying the comb.

Cultures of some organisms are capable of producing electric current. If a platinum electrode is placed in a liquid culture of E. coli or ordinary yeast, and another in the same nutrient medium, but without microbes, then a potential difference arises

"REVIVING" THE BATTERY!

Don't rush to throw it away old battery, but try to “revive” it.
In manganese-zinc cells, over time, manganese dioxide forms manganese hydroxide, which gradually coats the oxide and interferes with the chemical reaction. The easiest way is to knock on the battery, for example, with a stone (when shaken, the resulting surface layer of hydroxide is destroyed).

Or you can punch a hole in the zinc battery cup, for example, with a nail and lower the battery into water. The electrolyte dilutes, and it is easier for it to penetrate to manganese dioxide. In this way, you can increase the battery life by almost a third.

HOMEMADE BATTERIES

Delicious battery

And you can verify this without a voltmeter: touch copper and zinc with your tongue at the same time - your tongue will tingle!

You can create a large battery by connecting the elements in series.
Delicious, isn't it?!

Soda battery

We need to separate baking soda until the sour cream becomes thick, and place a teaspoon on a saucer. Place a copper coin on one edge of the soda lump, and a piece of galvanized iron on the other end. You have a galvanic cell that produces a voltage of about 1V. It can be measured using a voltmeter by touching the wires coming from the voltmeter to copper and zinc at the same time. You can make a series circuit of several similar elements, the voltage at the battery output will increase!

Salty battery

Take five “yellow” and “white” coins. Lay them out, alternating between each other. Place between them pads made of blotter or newspaper soaked in a strong solution table salt. Stack it all up and squeeze it together. The battery is ready! Connect a voltmeter to the first “yellow” and the last “white” coin. There is tension! And if you take this column of coins with your thumb and forefinger, you can feel a slight electric shock!

Don’t forget to first clean all metal parts from grease; this works very well with the help of Pemoxol powder (for cleaning dishes)!

"DRY" or "WET"?

Is the so-called “dry element” really dry?
Not at all, the cavity of the element between the electrodes is filled with a substance in a paste-like state, and so that it does not leak out and the electrodes do not move, the element is filled with resin on top.

Carbon-zinc electroplated batteries are the most common dry batteries. In them, the electrolyte is in a paste-like state.
Carbon-zinc elements can be "regenerated" during a break in operation,
and as a result of periodic “rest”, the service life of the element is extended.

Well well

In remote villages, on farmsteads where there is no electricity, you can find an interesting kerosene lamp - a “power plant”: it not only gives light, but also generates electrical energy. Its device is quite simple. Blocks of two different semiconductor materials are mounted in the form of a tube, which is placed on a shortened lamp glass. Each pair of different bars is soldered together with a metal plate, forming the letter P. When the lamp is lit, . the adhesions are heated, the sides of the bars facing the inside of the tube are heated by the air rising from the flame. The opposite edges remain cold. As a result, a positive charge accumulates on the cold end of one block, and a negative charge accumulates on the cold edge of the other block. By connecting the edges of the corresponding pairs with wire, we obtain a thermoelectric generator.
So far, in our time, such devices do not find industrial use, because coefficient useful action such a thermocouple is low - only 6-8%. This is several times less than the efficiency of modern thermal power plants.

The wind farm in Altamont Pass (California) consists of 300 wind turbines. To produce as much electricity as it produces nuclear power plant, the wind farm would cover an area of ​​approximately 140 square miles.

TRY TO DISCOVER

(or problems "for 5")

1. How will the action of the Volta element change if its copper electrode is replaced with zinc or the zinc electrode is replaced with a second copper one?

2. If an aluminum kettle containing a solution of table salt is connected
copper wire is connected to one terminal of the galvanometer, and an iron glass is connected to the second terminal, what happens when you pour liquid from a teapot into a glass?

Electric current - how to create and maintain it

Electric current is the ordered movement of charged particles. To obtain an electric current in a conductor, an electric field must be created in it. If a charged body is connected by a conductor to the ground, then a short-term electric current arises in the conductor. In order to obtain and maintain an electric field in a conductor, they use electric current sources.

In any current source, work is done to separate positively and negatively charged particles. The separated particles accumulate at the poles of the source. An electric field is formed between the poles. If you connect them with a conductor, then a field appears in the conductor.

In an electric machine, charge separation is carried out using mechanical energy. At the same time, it turns into electric. In a thermoelement, internal energy is converted into electrical energy. Nuclear batteries convert atomic energy into electrical energy.

A photocell converts light energy into electrical energy. Solar cells are made up of photovoltaic cells. They are used where light energy is most available.

The energy of rivers, coal, oil, and nuclear energy is converted into electrical energy at power plants. The most common sources of electric current are galvanic cells and batteries.

Galvanic cells

A galvanic cell is a current source in which chemical energy is converted into electrical energy.

This is how the simplest galvanic element works.

The first voltaic cell was invented by Volt in 1799. From individual elements He designed a battery called the "voltaic column". In a galvanic cell, the electrodes must interact differently with the solution, so the electrodes are made of different materials.

The zinc plate in the Volta element is charged negatively, and the copper plate is charged positively.

This is how a dry galvanic cell works. Instead of liquid, a thick paste is used in it:

A battery can be made from several elements:

Galvanic elements power light bulbs in electric lanterns, as well as various other portable electrical appliances and children's toys. When the electrodes in the galvanic cell are used up, I replace the element with a new one.

Batteries

Batteries are chemical sources of electric current in which electrodes are not consumed. The simplest battery consists of two lead plates immersed in a solution of sulfuric acid.

Such a battery does not yet produce current. It must be charged before use. To do this, connect the battery poles with the same poles of any current source.

The current that flows through the battery during charging changes chemical composition his plates. The chemical energy of the battery increases.

Currently, nickel-cadmium and nickel-metal hydride batteries are also widely used. Silver-zinc batteries are used in aviation and space. New types of batteries: lithium-ion, lithium-polymer are used in mobile phones, tablets and other modern portable equipment.

Batteries are used in cases where it is more profitable to recharge a source of electric current than to replace it with a new one. In a car, the battery is used to start the engine and operate various devices. In space, the battery is charged by solar panels. When discharged, it powers radio transmitters and equipment.

When they talk about using electrical energy at home, in production or transport, then they mean the operation of electricalcurrent Electric current is supplied to the consumer from the power plantby wire. Therefore, when the houses suddenly go outelectric lamps or the movement of electric trains stops,trolleybuses, they say that the current has disappeared in the wires.

In order for an electric current to exist in conductors for a long time, it is necessary to maintain an electric field in it all this time. An electric field in conductors is created and can be maintained for a long time by sources of electric current.

A current source is a device in which some type of energy is converted into electrical energy.

In any current source, work is done to separate positively and negatively charged particles, which accumulate at the poles of the source. The separated particles accumulate at the poles of the current source. This is the name of the places to which conductors are connected using terminals or clamps. One pole of the current source is charged positively, the other - negatively. If the poles of the source are connected by a conductor, then under the influence of an electric field, free charged particles in the conductor will begin to move in a certain direction, and an electric current will arise.

There are different types of current sources:

Mechanical current source

Mechanical energy is converted into electrical energy.

These include: an electrophore machine (the disks of the machine are driven into rotation in opposite directions. As a result of the friction of the brushes on the disks, charges of the opposite sign accumulate on the conductors of the machine), a dynamo, and generators.

Thermal current source

Internal energy is converted into electrical energy.

For example, a thermoelement - two wires made of different metals need to be soldered at one end, then the junction is heated, then a voltage will appear between the other ends of these wires.

Used in temperature sensors and geothermal power plants.

Light current source

Light energy is converted into electrical energy.

For example, a photocell - when certain semiconductors are illuminated, light energy is converted into electrical energy. Solar batteries are made from photocells.

They are used in solar batteries, light sensors, calculators, and video cameras.

Chemical current source

As a result of chemical reactions, internal energy is converted into electrical energy.

Galvanic cells are the most common sources of direct current in the world. Their advantage is ease and safety of use. Batteries were invented a long time ago, at the dawn of the development of electricity. Back then they didn’t know how to transmit current over long distances; they used it only within the laboratory. But to this day, various battery options have not lost their relevance. There are disposable and reusable batteries - accumulators.

Disposable batteries exhaust their full potential during use and are no longer suitable.

In everyday life, batteries are often used that can be recharged many times - accumulators (from the Latin word accumulator - to accumulate). The simplest battery consists of two lead plates (electrodes) placed in a sulfuric acid solution.

For the battery to become a source of current, it must be charged. To charge, direct current from some source is passed through the battery. During the charging process, as a result of chemical reactions, one electrode becomes positively charged and the other negatively charged. When the battery is charged, it can be used as an independent power source. The battery poles are marked with “+” and “-” signs. When charging, the positive pole of the battery is connected to the positive pole of the current source, and the negative pole is connected to the negative pole.