Major Discoveries in Electrical Communication in the 1800’s

The 19th century was a very diverse era of electronic knowledge and technology discovery that lay the foundation of modern telecommunications. In the meantime, the foundation of modern electric technology was discovered. The nineteenth century began with discussions between Luigi Galvani and Alessandro Volta on the source of electricity in Galvani's famous frog experiment. These controversies made Volta invent the battery as well as the invention of Volta.

Michael Faraday is a British scientist who lived in the 1800s. Faraday is always interested in becoming a scientist, but it is almost impossible due to the low level of society. One of his main findings was that electric wires were transmitted by the power transmitted by wires. He came up with an idea when the scientist he worked placed a compass on both sides of the wire. The compass needle is bent at right angle. The second half of his execution was an experiment to prove whether it is correct or not.

Electrical and electronic engineering began in the 19th century. In 1800, Alexander Walter (Alexander Walter, 1745-1827) found a gateway to emphasize science. By the mid-nineteenth century, fundamental power rules were established and the first practical application appeared. At that time, Michael Faraday discovered the electromagnetic induction phenomenon, Alexander Graham Bell invented the telephone, and the light bulb was invented by Thomas Edison. These inventions require further power generation and utilization of electricity, so we concentrate on developing more power and producing better equipment such as motors and transformers.

Let's consider the situation of electricity. Faraday and Maxwell discovered the basic principles in the mid 1800's and designed practical solutions for Edison and Tesla in the second half of the 21st century. At the beginning of the 20th century, this technology was widely used in the factory, but the strange thing was that there was no practical merit at the outset. The problem turned out to be in the factory itself, not electricity. In a steam-driven plant, the machine must be placed around the power supply and the first power-driven plant is designed in the same way. Workflow is almost unchanged, productivity is almost unchanged

Beginning in the late 1800's and early 1900's, Serbian-American technicians, inventors, and all the electric guides Nikola Tesla made an important contribution to the birth of commercial power. After doing work with Edison, we did a number of innovative developments in electromagnetism and Marconi 's radio invention. It is famous for work in AC (AC), AC motor, multiphase distribution system.