Category Electricity

What is Electricity?

               Electricity powers our lights, heating, electronic appliances such as computers and television, and a host of other essential services that we take for granted. However, electricity has much more important aspects because it is a fundamental feature of all matter. Electricity is the force that holds together the molecules and atoms of all substances.

               The type of electricity that is most familiar to us is electrical current. This is the flow of electrical charges through a substance called a conductor, such as a metal wire. This flow happens because some of the negatively charged electrons circling the nuclei of the conductor’s atoms are held loosely. The electrons can move from one atom to the next, producing an electrical current.

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What is Electricity?

               In ancient times, man had no idea of electrical energy. They took the flash of lightning during a thunder storm to be a signal for an impending destruction from the heavenly Gods. With the passage of time, science in its own way explained the mystery of this great energy called electricity.

               Today, we cannot imagine the normal life without electricity. Commonly we know it as a form of energy, that powers almost all machines or mechanical devices — trains, radios, television sets, freezers and so on. Electricity is a phenomenon involving electrical charges and their effects, when at rest as well as when in motion.

               Electricity that we use flows through wires as electric current. In a nutshell, when an electric current flows through a conductor of finite resistance, the heat energy is continuously generated at the expense of electrical energy. The particles of a matter may be positive, negative or neutral. We know that electricity has its two important particles — protons and electrons. Electron is negatively charged while proton is charged positively to an equal extent. The object containing an equal number of protons and electrons is electrically neutral. For example, anode is a positive electrode while cathode is a negative one. Bulk of the electricity we use is produced in power stations. In the generator of a power station, coils of wire are made to rotate between powerful magnets in order to rotate electric current through the coils. Electricity travels through substances like copper, aluminium and iron. These are called conductors. However, electricity cannot pass through some materials like rubber and glass and these are called insulators. 

               Electricity which flows in one direction and then in the opposite is called Alternate Current (A.C.). Each movement of A.C., back and forth, happens very quickly – about 50 times a second. The electricity that flows in our houses is mostly A.C. Steady flowing current in one direction only is known as Direct Current (D.C.). For instance, battery current is D.C.

               Soon after the invention of electric cell by Alessandro Volta, people came to know that heat, light, chemical reactions and magnetic effects could be produced from electricity.

               As early as 600 B.C. Greeks discovered electricity by rubbing Amber with cloth which enabled it to attract small pieces of papers. In fact, the word electric originated from the Greek word Electron. Based on the theory of “Electro-Magnetic Induction” of Michael Faraday in 1831, first successful generator or Dynamo was made in Germany in 1867. USA produced; electricity by running turbines with the help of falling water in 1858.

               Subsequently hydel and thermal power stations came into existence all over the world. During the 20th century many nuclear power stations were established to meet the growing demand of electricity. 

How is electricity conducted through wires?

Electricity is supplied to our homes, schools, factories and stores through copper or aluminium wires from power stations. These power stations burn coal or oil, use nuclear reactions or the energy of falling water to produce energy to run the generators. The power thus generated is then transmitted to different cities and places where it is required. Electricity is then transmitted through transmission lines.

To avoid the loss of power, the output voltage from the generator is first stepped up to a high voltage by a step-up transformer. After being received at the city power station, it is again reduced to low voltage, before it reaches our homes or factories. Now question arises how is electricity conducted through wires?

We know that all substances are made up of atoms. Materials which allow the passage of electricity are called conductors. Metals, such as copper, aluminium, silver and gold are good conductors of electricity. The atoms of these metals have loosely bonded electrons. These electrons are free to move within the metal. These are called free electrons and are responsible for the conduction of current. More the number of free electrons in the metal, better it conducts the electricity. 

When electric battery is connected across the ends of the metal wire, the negatively charged free electrons move away from the end connected to the negative terminals and flow toward the positive terminal. This flow of electrons is nothing but the electric current. Hence the drifting electrons cause electricity to flow. Greater the number of free electrons in a metal, easier it is for electricity to flow through it.

Some materials are poor conductors of electricity because they have less number of free electrons. Poor conductors resist the flow of electricity. The resistance of a wire depends upon its material length and area of its cross-section.

Some substances do not allow electricity to flow through them and are called insulators. These substances contain tightly-bonded electrons that cannot move away from atoms. Hence they do not conduct electricity. Glass, mica, wood, plastic and rubber are common insulators. Some substances like silicon and germanium are neither good conductors nor insulators. They are called semi-conductors. 

Can light travel through wires?

               We all know that electricity travels from one place to another through metallic wires. Can light travel through wires too?

                Light can also travel through wires, but these wires are not made of metals. They are made of glass or plastics. Light carrying wires are extremely thin and are called optical fibres. The branch of science dealing with the conduction and study of light through fibres is called Fibre Optics.

       In 1870, a British physicist John Tyndal showed that light can travel along a curved rod of glass or transparent plastic. Light travels through transparent rods by the process of total internal reflection. The sides of the fibre reflect the light and keep it inside as the fibre bends and turns. 

 

 

               The narrow fibres have a thin core of glass of high refractive index surrounded by a thin cladding of another glass of lower refractive index. The core carries light and the covering helps bend the light back to the core.

               Fibres are drawn from thick glass rods in a special furnace. The glass rod of higher refractive index is inserted in a tubing of glass of lower refractive index. Then the two are lowered carefully and slowly through a vertical furnace and the fibre drawn from the lower end is wound on a revolving drum. With this method, fibres of about .025 mm in diameter can be drawn.

               Fibres so prepared have to be aligned properly in the form of a bundle. They should not cross each other; otherwise the image transported by it will be scrambled. They are kept in straight lines. Once the aligned bundle is made, it can be bent or turned in any desired direction. 

 

 

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Why do we use AC supply in our homes?

          Initially, direct current was used for power transmission. It was only in the 1950s that people realized the merits of alternating current over the other.

          Although the two are used today, alternating current is more accepted worldwide. It is used for bigger appliances as well as in houses. Let us see why.

          One of the main reasons for having AC for domestic purposes is that it causes very low wastage of power. It is seen that even at high voltages above 110 KV, less energy is lost in transmission. Yet another peculiarity of AC electricity is that voltage can easily be changed from high voltage to low and vice versa. This in turn makes it suitable for long distance transmission, unlike DC.

            Alternating current is also known to be capable of powering electric motors. Thus, it is useful for high-end appliances like refrigerators, televisions, computers etc.

            In terms of safety too, AC is preferred to DC power.

            It is for these reasons that most countries in the world favour AC than DC power. 

Why is it said that there are two types of batteries?

         Batteries can be broadly divided into two – primary and secondary.

         Primary batteries are single-use batteries – that are they can be used only once. After that, they should be discarded. They cannot be recharged. Quite a few non-rechargeable batteries are used in our daily life. This includes batteries used in toys, radios, remote controls, flashlights, clocks etc.

         Those batteries that can be recharged and reused are called secondary batteries. Through electric current, these batteries can be recharged.

         Secondary batteries can be seen in many devices including cell-phones, MP3 players etc.

         Yet another example can be seen in cars and trucks. Did you know that there is a lead-acid battery that works every time we start a car? This is how the car gets energy to run the lights and radio when the engine is not running. The battery in the car is recharged while we drive.

         Besides lead-acid, there are other batteries that can be recharged. This includes the nickel-cadmium battery, lithium-ion battery, nickel-metal hydride batteries etc.