The Invention of the Radio
by Angelo Brunero ( IK1QLD ) and translated by Andrea Valori ( IK1QFT )
During the second half of the last century scientists were searching the way to wireless communication; but many attempts made with electromagnetic waves didn't lead to any result. The Scotsman James Clarke Maxwell demonstrated mathematically how electromagnetic "actions" did spread with an "undulatory" movement. In 1887 the German Heinrich Hertz, using periodic currents at very high frequency, demonstrated the real existence of electromagnetic waves transforming the "undulatory movement" into a stationary phenomenon, which could be easily checked in a laboratory.
The Italian physicist Augusto Righi from Bologna, continued and improved Hertz's work, demonstrating also the complete identity between optical and electrical vibrations. In 1884 Temistocle Calzecchi-Onesti, teacher in the lyceum of Fermo, noticed the influence of electrical discharges of atmospheric perturbations on iron filing, constructing the famous "tube" which was named by the English physicist Oliver Lodge in 1894 the "coherer". Lodge, with the coherer improved by the Frenchman Edouard Branly in the Cambridge experiments, could notably increase the reception gain of the hertzian waves.
Finally in Kronstadt the Russian Alexander Popov used the 'Lodge' coherer acting with atmospheric disturbances collected with a rudimentary antenna: a vertical metal pole. These were the main scientific conquests which led to the comprehension of identity between light and electromagnetic action, that took Guglielmo Marconi to his wonderful discovery, producing the device capable to make the electromagnetic waves travel the air, confined in conductive media as the ionosphere and the earth surface, and still capable to preserve precisely their own features.
Let me now write of the studies and experiences of Guglielmo Marconi: few books treat this subject systematically, so I think it is nice for the 100th anniversary of the invention of the radio to find a place to write it, since I think that the name of Guglielmo Marconi will never be celebrated enough.
Guglielmo Marconi was born in Bologna in April the 25th, 1874. His father was named Joseph and his mother, Annie , a Protestant, was the second wife of his father. From his mother he inherited tenaciousness and perseverance, and knowledge of English language; from his father a strong will and business skill. When seven years old he entered the Istituto Cavallero in Florence, and in 1885 the Istituto Nazionale in Livorno, where meanwhile the family had moved.
In Livorno, Guglielmo acquired also a religious culture in the local Valdese church, where he was "confirmed" in 1882; in fact his mother before marrying laid down the condition that her sons would have been educated as Protestants. Guglielmo's first wife was ( indeed ) a Protestant: Beatrice O'Brien.
A self-taught person, when he was just eighteen, Marconi felt the growth of an irresistible vocation inside for physics and electricity. A pupil in Livorno of professors Vincenzo Rosa and Giotto Bizzarrini, he acquired a more rigorously scientific way of thinking in a crucial moment for the direction of his studies. He knew well the ideas and theories of Maxwell, the experiments of Hertz, Righi, Calzecchi-Onesti, Branly.
During the summer 1894, during his family vacations on the mountains near Biella ( in the surroundings of Turin ) Young Guglielmo could meditate on Hertz's experiments, and had the idea to use the hertzian waves to communicate. This was his marvellous intuition, never thought of before by anybody.
During the following Fall, in the villa in Pontecchio near Bologna, the twenty year old boy transformed the granary in his laboratory, working night and day among rolls of copper wire, brass spheres, Ruhmkorff coils, Morse keys and electric bells, building the first elementary radio sets.
The first weak signals could reach few hundred meters from the window of the granary where was placed the transmitter to the hill at the end of the garden where was the receiver, the three points of the letter S travelled the space, reaching the destination, and the farmer waved his handkerchief to show the successful reception.
But Marconi wanted to get over the obstacles of the ground and connect two reciprocally invisible points. He took the receiver to the other side of the hill, where Mignani with his gun waited for the ring to sound three times. From the granary Marconi pushed three times the key of the transmitter and heard the answer of a distant gunshot: electromagnetic waves had overtaken the obstacle, radio communications where now possible! It was the month of April 1895.
For this experiment Marconi used the oscillators of Hertz and Righi, but the waves where too weak to go too far. He overcame the difficulties connecting to the oscillator an antenna and a ground, thus obtaining more power.
In 1886 he obtained his first patent, which he presented to the Italian government of that time, offer that wasn't even considered. His mother, understanding the importance of the invention, wrote to her parents in England, who advised her to send him to London, where it could have been easier to find the money necessary to develop the invention.
On February 2, 1896 Marconi left for England where, with the help of engineer David Jameson, his mother's cousin, he was introduced to the director of the Post and Telephones company, Sir William Preece, who became an enthusiastic supporter. On July 27 he performed his first official experiment from the terrace of the Post Office to the Salisbury plain.
Other transmissions where performed successfully across the Bristol channel, between Penarth and Weston. In 1897 Marconi founded the first organisation for the commercial development of his invention and in July of the same year, invited by the Italian government, came back to Italy and performed in La Spezia a communication between the arsenal and the battleship San Martino, surpassing the distance of 18 Km.
Back in England, on July 20 Marconi founded the Wireless Telegraph Trading Signal Co. Ltd.. In November was built the first Marconi fixed station in Needless in the Isle of Wight, and were performed the first connections with Bournmouth 23 Km. away.
In May 1898 Marconi realised the first equipment with tuning circuits to guarantee the independence of simultaneous communications between more stations (the future and famous patent 7777), and in July of the same year he carried out the first journalistic radiotelegraphic service for the Daily Express during the Royal Yacht Club Regatta, reporting from the deck of the yacht Flying Hontress to Kingstown, which was connected via telephone to Dublin.
On August the 26th for the first time a distress signal was sent from a lighthouse boat using wireless telegraphy; and on March 3, 1899 the first rescue of a shipwreck, the Mathens, using radiotelegraphy. On March 27 of the same year Marconi achieved the telegraphic connection between England and France, from Wimereux near Boulogne-sur-Mer to South Foureland near Dover, distant 32 miles. In September Marconi went to the United States where he carried out the connection between the cruisers New York and Massachusetts of U.S. Navy. In this period he improved his equipment to overcome the difficulties in order to obtain more distant connections, to get over the mountains and most of all the curve of the earth surface, which scientists considered insuperable to the radio waves.
It is the year 1900: the Wireless Telegraph Trading Signal Co. Ltd. changes its name into Marconi Wirelss Telegraph Co. and on April 26 Marconi obtains the historical English patent n. 7777 on his first tuning equipment. In October he ended building the Poldhu station in Cornwall, the most powerful telegraph station ever built until then.
On November 26, 1901 Marconi with his two assistants Paget and Kemp embarked in Liverpool and reached St. John's in Terranova, where he built another radio station: on December the 12 around 12.30, local time, Marconi received three weak signals corresponding to letter S in Morse code. For the first time in the world electromagnetic waves had crossed an ocean.
On February 22 Marconi embarked on the boat Philadelphia bound to America to build a big radio station in Glace Bay in Nova Scotia, upon invitation of the Canadian government. During the trip the scientist made important experiments discovering the harmful influence of solar radiation on transmissions, and, as he saw that the coherer did not meet the increasing needs of stability of reception, created a new kind of detector.
This new device will be ( called ) the Magnetic Detector, which will be patented on June 25, 1902. He will use it for the first time on board of the Italian battleship Carlo Alberto, at his disposal from the Italian government for the famous radiotelegraphic campaign from Naples to Kronstadt in Russia, always keeping contact with Poldhu station.
In the month of October of the same year the boat was bound to Canada to Glace Bay, where Marconi started the experiments to communicate across the Atlantic ocean from the other side, that is from America to Europe; Poldhu station worked as a receiver. For a long time every communication was impossible and from Poldhu via cable line the only message was "standard", that is "we haven't received anything".
At last, on December 15 the message received from Poldhu changed in greentime, that is "we have received some signals", while on December 18 the reception became intelligible, and transmission was sure on both directions: the first transoceanic bilateral transmission was over. On September 1903 during the boat trip from England to United States on board of steamboat Lucania Marconi established the first press agency between Europe and America, starting regular printing of newspapers on board during the trip across the Atlantic.
In 1904 Marconi built the rotating oscillator discovered the directive properties of horizontal antennas, and started to use John Fleming's thermionic valves. In 1905 he patented his directive horizontal antennas, which permitted a tremendous increase of the strength of received signals. On December 10, 1909 Guglielmo Marconi was awarded the Nobel Prize for Physics.
In 1912 Marconi invented a new way to generate continuous waves, called multiple sparks system, a smart intermediate point between the previous spark instruments and those with continuous wave. In 1914, after the improvement of radiotelephonic instruments using triode thermionic valves, he experimented successfully a regular radiotelephonic service: it was the birth of radiophony.
At the outburst of World War First he enrolled in the Italian Army as an officer. In march 1916, following some problems in using long waves during military operations, Marconi started realising the first VHF radios, opening thus a wider horizon to the development of radio communications.
In 1916 he bought the boat Elettra, which became his personal laboratory, where he attended his studies and his researches. Knowing the peculiar properties of short waves, in 1922 Marconi recommended their use instead of long waves, and between June and July 1923 he performed very important experiences between Poldhu and the Elettra, moored in the islands of Palo Verde ( nearly 4000 Km. ), obtaining such results that led him to try even farther.
In 1924 Marconi built numerous short wave stations, in the 30-60 mHz band, for British government, and on may 30 of that same year took place the first regular transmission of human voice between England ( Poldhu ) and Australia ( Sydney ).
On October the 5th the Italian Ministry of Communications authorised the "Italian Radiophonic Union Society" to start radio auditions in Italy. On June 15 Marconi married his second wife, the countess Maria Cristina Bozzi Scali ( disappeared recently ), and on January the 1st., 1928 he was named president of the NRC ( National Research Council ).
On March 26, 1930, from aboard the Elettra moored in the harbour of Genoa, he sent a signal that, after covering 14.000 miles, lighted Sydney townhall. On September 17 he was named President of Italian Royal Academy.
Because of the start of regular radio services all throughout the world, the air was becoming more and more jammed with signals; Marconi then opened new horizons to the radio, improving the reflecting radios, which worked on frequencies below one meter. On February 12, 1931 Marconi, in the presence of Pope Pius IX, inaugurated the new Vatican Radio Station, and on September 13 of that same year, from his office in Rome, Marconi lighted up the statue of the Redeemer in Rio de Janeiro, via the Coltano repeater.
In this period Marconi demonstrated the possibility of using microwaves communicating between Santa Margherita Ligure and Levanto (36 Km.). In 1932 he built the permanent radiotelegraphic connection between the Vatican and Castel Gandolfo ( summer seat of the Pontifex ). Between August 2 and 11 of that year he made important experiments between Rocca di Papa and the Elettra until the distance of 224 Km. ( 127 Km. beyond optical reach ) and between Rocca di Papa and Senapro of Capo Lipari in Sardinia, at the distance of 269 Km., using a wavelength of 57 cm!
On July 26, 1934 Marconi established the radiotelegraphic connection between the Elettra and the radio beacon in Sestri Levante with a wavelength of 63 cm., demonstrating how a ship could, in case of fog and in total blindness, find safely the entrance of a harbour. In March 1935 on the via Aurelia he performed some distant search experiments which would eventually lead to the invention of radar. Together with microwaves, he studied also television, foreseeing the future, and started research on therapeutic use of radiowaves ( Marconiterapia )
Guglielmo Marconi died of a heart attack in Rome on July 20, 1937. To remember his name, his multiform activity as researcher, inventor, experimenter, scientist and scholar, radios all around the world observed a long minute of silent regret.
His example, his precious work, his way to conduct experiments and trials with both exactitude and scientific method, his stubbornness to lead the tests until the deep and complete understanding of the phenomenon, his devotion, his firmness, his enthusiasm, his committment are an inestimable heritage and an example that all of us radio amateurs have done our possession; it is through the work of radio amateurs that the world has been enriched of new discoveries, knowledge, positive results about radio and in all those fields that progress has related to the radio.
Few men in the world had the satisfactions that had Marconi during his life: I think of all that has been done, of all the reached goals, satisfactions that we Hams can understand, maybe better than any other. A feeling of admired gratitude goes to Guglielmo Marconi every time I switch on my transceiver and with the simple manipulation of a key I can communicate my emotions to another radio experimenter. I am thus proud, as I hope will be all Hams, to be a part of that class who received the heritage and the patrimony of Guglielmo Marconi.
Source: Angelo Brunero ( IK1QLD ) and Andrea Valori ( IK1QFT )For enhanced clarity of meaning, some extra but minor enhancements on the translation have been made by Russell Naughton, 1997.
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