An electric current flows along a wire as electrons detach from the outermost parts of their own atoms and jump or hop along to...Read More >>An electric current flows along a wire as electrons detach from the outermost parts of their own atoms and jump or hop along to the next available atoms at high speed. Electrons are tiny particles that are parts of atoms. An electric current is a flow of electrons. Electronics is the study of how electrons behave and how they can be controlled so that they can do useful jobs. Nearly all the machines we use in our everyday lives—computers, phones, TV remote controls, games consoles, calculators, radios, cars and so on—contain electronic circuits that make them work. Electronics are especially important in information technology and telecommunications.
A thermionic triode valve was designed to amplify (strengthen) electric signals. A central electrode is heated inside a glass...Read More >>A thermionic triode valve was designed to amplify (strengthen) electric signals. A central electrode is heated inside a glass tube. Electrons flow from it to another, outer electrode. A small electric signal causes large changes to this electron flow, producing a more powerful electric signal.
First electronic devices
The study of electronics began at the end of the 19th century, and had its first practical use in the early 20th century in the development of radio communications. The first electronic devices were called thermionic valves. These included the diode valve, which allowed current to flow through it one way but not the other, and the triode, in which a small current could be used to control a much larger current. The parts of thermionic valves, some of which glowed red hot, had to be enclosed in a glass tube with the air removed to create a vacuum.
Wafers of silicon on a conveyor belt during their manufacture
In 1883, US inventor Thomas Edison observed the flow of electrons (not known at the time) from the heated element inside his new incandescent lamp to a cooler metal plate. It was a one-way flow: it did not work in reverse. This effect, called the Edison Effect, was put to use by John Fleming in his invention of the diode valve.
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