Guglielmo Marconi Quotes

Guglielmo Marconi, the inventor of radio, believed that sound waves never completely die away, that they persist, fainter and fainter, masked by the day-to-day noise of the world. Marconi thought that if he could only invent a microphone powerful enough, he would be able to listen to ancient times.

Modern electrical power distribution technology is largely the fruit of the labors of two men—Thomas Edison and Nikola Tesla. Compared with Edison, Tesla is relatively unknown, yet he invented the alternating electric current generation and distribution system that supplanted Edison's direct current technology and that is the system currently in use today. Tesla also had a vision of delivering electricity to the world that was revolutionary and unique. If his research had come to fruition, the technological landscape would be entirely different than it is today. Power lines and the insulated towers that carry them over thousands of country and city miles would not distract our view. Tesla believed that by using the electrical potential of the Earth, it would be possible to transmit electricity through the Earth and the atmosphere without using wires. With suitable receiving devices, the electricity could be used in remote parts of the planet. Along with the transmission of electricity, Tesla proposed a system of global communication, following an inspired realization that, to electricity, the Earth was nothing more than a small, round metal ball. [...] With $150,000 in financial support from J. Pierpont Morgan and other backers, Tesla built a radio transmission tower at Wardenclyffe, Long Island, that promised—along with other less widely popular benefits—to provide communication to people in the far corners of the world who needed no more than a handheld receiver to utilize it. In 1900, Italian scientist Guglielmo Marconi successfully transmitted the letter "S" from Cornwall, England, to Newfoundland and precluded Tesla's dream of commercial success for transatlantic communication. Because Marconi's equipment was less costly than Tesla's Wardenclyffe tower facility, J. P. Morgan withdrew his support. Moreover, Morgan was not impressed with Tesla's pleas for continuing the research on the wireless transmission of electrical power. Perhaps he and other investors withdrew their support because they were already reaping financial returns from those power systems both in place and under development. After all, it would not have been possible to put a meter on Tesla's technology—so any investor could not charge for the electricity!

Wherever you go, Provincetown will always take you back, at whatever age and in whatever condition. Because time moves somewhat differently there, it is possible to return after ten years or more and run into an acquaintance, on Commercial or at the A&P, who will ask mildly, as if he’d seen you the day before yesterday, what you’ve been doing with yourself. The streets of Provincetown are not in any way threatening, at least not to those with an appetite for the full range of human passions. If you grow deaf and blind and lame in Provincetown, some younger person with a civic conscience will wheel you wherever you need to go; if you die there, the marshes and dunes are ready to receive your ashes. While you’re alive and healthy, for as long as it lasts, the golden hands of the clock tower at Town Hall will note each hour with an electric bell as we below, on our purchase of land, buy or sell, paint or write or fish for bass, or trade gossip on the post office steps. The old bayfront houses will go on dreaming, at least until the emptiness between their boards proves more durable than the boards themselves. The sands will continue their slow devouring of the forests that were the Pilgrims’ first sight of North America, where man, as Fitzgerald put it, “must have held his breath in the presence of this continent, compelled into an aesthetic contemplation he neither understood nor desired, face to face for the last time in history with something commensurate to his capacity for wonder.” The ghost of Dorothy Bradford will walk the ocean floor off Herring Cove, draped in seaweed, surrounded by the fleeting silver lights of fish, and the ghost of Guglielmo Marconi will tap out his messages to those even longer dead than he. The whales will breach and loll in their offshore world, dive deep into black canyons, and swim south when the time comes. Herons will browse the tidal pools; crabs with blue claws tipped in scarlet will scramble sideways over their own shadows. At sunset the dunes will take on their pink-orange light, and just after sunset the boats will go luminous in the harbor. Ashes of the dead, bits of their bones, will mingle with the sand in the salt marsh, and wind and water will further disperse the scraps of wood, shell, and rope I’ve used for Billy’s various memorials. After dark the raccoons and opossums will start on their rounds; the skunks will rouse from their burrows and head into town. In summer music will rise up. The old man with the portable organ will play for passing change in front of the public library. People in finery will sing the anthems of vanished goddesses; people who are still trying to live by fishing will pump quarters into jukeboxes that play the songs of their high school days. As night progresses, people in diminishing numbers will wander the streets (where whaling captains and their wives once promenaded, where O’Neill strode in drunken furies, where Radio Girl—who knows where she is now?—announced the news), hoping for surprises or just hoping for what the night can be counted on to provide, always, in any weather: the smell of water and its sound; the little houses standing square against immensities of ocean and sky; and the shapes of gulls gliding overhead, white as bone china, searching from their high silence for whatever they might be able to eat down there among the dunes and marshes, the black rooftops, the little lights tossing on the water as the tides move out or in.

Several major and significant discoveries in science occurred in the 19th and 20th century through the works of scientists who believed in God. Even in just the last 500 years of modern scientific enterprise, a great many scientists were religious including names like Isaac Newton, Nicholas Copernicus, Johannes Kepler, Robert Boyle, William Thomson Kelvin, Michael Faraday, James Clerk Maxwell, Louis Pasteur and Nobel Laureate scientists like: 1.Max Planck 2.Guglielmo Marconi 3.Robert A. Milikan 4.Erwin Schrodinger 5.Arthur Compton 6.Isidor Isaac Rabi 7.Max Born 8.Dererk Barton 9.Nevill F. Mott 10.Charles H. Townes 11.Christian B. Anfinsen 12.John Eccles 13.Ernst B. Chain 14.Antony Hewish 15.Daniel Nathans 16.Abdus Salam 17.Joseph Murray 18.Joseph H. Taylor 19.William D. Phillips 20.Walter Kohn 21.Ahmed Zewail 22.Aziz Sancar 23.Gerhard Etrl Thus, it is important for the torchbearers of science to know their scope and highlight what they can offer to society in terms of curing diseases, improving food production and easing transport and communication systems, for instance. To mock faith and faithful, the scientists who do not believe in God do not just hurt the faithful people who are non-scientists, but a great many of their own colleagues who are scientists, but not atheists.

Before he could start writing Kilby’s application, though, Mosher had to resolve a fundamental tactical question. Anyone who applies for a patent has to decide whether he needs it for offensive or for defensive purposes—whether, to use lawyers’ favorite metaphor, he wants his patent to be a sword or a shield. The decision usually turns on the novelty of the invention. If somebody has a genuinely revolutionary idea, a breakthrough that his competitors are almost sure to copy, his lawyers will write a patent application they can use as a sword; they will describe the invention in such broad and encompassing terms that they can take it into court for an injunction against any competitor who tries to sell a product that is even remotely related. In contrast, an inventor whose idea is basically an extension of or an improvement on an earlier idea needs a patent application that will work as a shield—a defense against legal action by the sword wielders. Such a defensive patent is usually written in much narrower terms, emphasizing a specific improvement or a particular application of the idea that is not covered clearly in earlier patents. Probably the most famous sword in the history of the patent system was the sweeping application filed on February 14, 1876, by a teacher and part-time inventor named Alexander Graham Bell. That first telephone patent (No. 174,465) was so broad and inclusive that it became the cornerstone—after Bell and his partners had fought some 600 lawsuits against scores of competitors—of the largest corporate family in the world. In the nature of things, though, few inventions are so completely new that they don’t build on something from the past. The majority of patent applications, therefore, are written as shields—as improvements on some earlier invention. Some of the most important patents in American history fall into this category, including No. 586,193, “New and Useful Improvements in Transmitting Electrical Impulses,” granted to Guglielmo Marconi in 1898; No. 621,195, “Improvements in and Relating to Navigable Balloons,” granted to Ferdinand Zeppelin in 1899; No. 686,046, “New and Useful Improvements in Motor Carriages,” granted to Henry Ford in 1901; and No. 821,393, “New and Useful Improvements in Flying Machines,” granted to Orville and Wilbur Wright in 1906.

Guglielmo Marconi, the inventor of the radio, was born in Bologna, Italy, in 1874. His family

38 GUGLIELMO MARCONI 1874-1937

Bose had demonstrated his experimental prowess with homemade instruments employing gunpowder and a bell before British officialdom in the Kolkata Town Hall. He used a homemade 'coherer,' an apparatus he did not seek to patent because he had no interest in making money. Instead, Guglielmo Marconi, who Bose had met in London in 1896, was celebrated for similar work in wireless telegraphy.

It’s interesting to note that in 1901 Guglielmo Marconi, from his laboratory in England, used the Tesla’s coil system to transmit Morse code across the Atlantic. Everything Marconi did was based on Tesla’s work.