Posted on 02/06/2013 6:44:07 PM PST by nickcarraway
By the end of his brilliant and tortured life, the Serbian physicist, engineer and inventor Nikola Tesla was penniless and living in a small New York City hotel room. He spent days in a park surrounded by the creatures that mattered most to himpigeonsand his sleepless nights working over mathematical equations and scientific problems in his head. That habit would confound scientists and scholars for decades after he died, in 1943. His inventions were designed and perfected in his imagination.
Tesla believed his mind to be without equal, and he wasnt above chiding his contemporaries, such as Thomas Edison, who once hired him. If Edison had a needle to find in a haystack, Tesla once wrote, he would proceed at once with the diligence of the bee to examine straw after straw until he found the object of his search. I was a sorry witness of such doing that a little theory and calculation would have saved him ninety percent of his labor.
But what his contemporaries may have been lacking in scientific talent (by Teslas estimation), men like Edison and George Westinghouse clearly possessed the one trait that Tesla did nota mind for business. And in the last days of Americas Gilded Age, Nikola Tesla made a dramatic attempt to change the future of communications and power transmission around the world. He managed to convince J.P. Morgan that he was on the verge of a breakthrough, and the financier gave Tesla more than $150,000 to fund what would become a gigantic, futuristic and startling tower in the middle of Long Island, New York. In 1898, as Teslas plans to create a worldwide wireless transmission system became known, Wardenclyffe Tower would be Teslas last chance to claim the recognition and wealth that had always escaped him.
Nikola Tesla was born in modern-day Croatia in 1856; his father, Milutin, was a priest of the Serbian Orthodox Church. From an early age, he demonstrated the obsessiveness that would puzzle and amuse those around him. He could memorize entire books and store logarithmic tables in his brain. He picked up languages easily, and he could work through days and nights on only a few hours sleep.
At the age of 19, he was studying electrical engineering at the Polytechnic Institute at Graz in Austria, where he quickly established himself as a star student. He found himself in an ongoing debate with a professor over perceived design flaws in the direct-current (DC) motors that were being demonstrated in class. In attacking the problem again I almost regretted that the struggle was soon to end, Tesla later wrote. I had so much energy to spare. When I undertook the task it was not with a resolve such as men often make. With me it was a sacred vow, a question of life and death. I knew that I would perish if I failed. Now I felt that the battle was won. Back in the deep recesses of the brain was the solution, but I could not yet give it outward expression.
He would spend the next six years of his life thinking about electromagnetic fields and a hypothetical motor powered by alternate-current that would and should work. The thoughts obsessed him, and he was unable to focus on his schoolwork. Professors at the university warned Teslas father that the young scholars working and sleeping habits were killing him. But rather than finish his studies, Tesla became a gambling addict, lost all his tuition money, dropped out of school and suffered a nervous breakdown. It would not be his last.
In 1881, Tesla moved to Budapest, after recovering from his breakdown, and he was walking through a park with a friend, reciting poetry, when a vision came to him. There in the park, with a stick, Tesla drew a crude diagram in the dirta motor using the principle of rotating magnetic fields created by two or more alternating currents. While AC electrification had been employed before, there would never be a practical, working motor run on alternating current until he invented his induction motor several years later.
In June 1884, Tesla sailed for New York City and arrived with four cents in his pocket and a letter of recommendation from Charles Batchelora former employerto Thomas Edison, which was purported to say, My Dear Edison: I know two great men and you are one of them. The other is this young man!
A meeting was arranged, and once Tesla described the engineering work he was doing, Edison, though skeptical, hired him. According to Tesla, Edison offered him $50,000 if he could improve upon the DC generation plants Edison favored. Within a few months, Tesla informed the American inventor that he had indeed improved upon Edisons motors. Edison, Tesla noted, refused to pay up. When you become a full-fledged American, you will appreciate an American joke, Edison told him.
Tesla promptly quit and took a job digging ditches. But it wasnt long before word got out that Teslas AC motor was worth investing in, and the Western Union Company put Tesla to work in a lab not far from Edisons office, where he designed AC power systems that are still used around the world. The motors I built there, Tesla said, were exactly as I imagined them. I made no attempt to improve the design, but merely reproduced the pictures as they appeared to my vision, and the operation was always as I expected.
Tesla patented his AC motors and power systems, which were said to be the most valuable inventions since the telephone. Soon, George Westinghouse, recognizing that Teslas designs might be just what he needed in his efforts to unseat Edisons DC current, licensed his patents for $60,000 in stocks and cash and royalties based on how much electricity Westinghouse could sell. Ultimately, he won the War of the Currents, but at a steep cost in litigation and competition for both Westinghouse and Edisons General Electric Company.
Wardenclyffe Tower. Photo: Wikipedia Fearing ruin, Westinghouse begged Tesla for relief from the royalties Westinghouse agreed to. Your decision determines the fate of the Westinghouse Company, he said. Tesla, grateful to the man who had never tried to swindle him, tore up the royalty contract, walking away from millions in royalties that he was already owed and billions that would have accrued in the future. He would have been one of the wealthiest men in the worlda titan of the Gilded Age.
His work with electricity reflected just one facet of his fertile mind. Before the turn of the 20th century, Tesla had invented a powerful coil that was capable of generating high voltages and frequencies, leading to new forms of light, such as neon and fluorescent, as well as X-rays. Tesla also discovered that these coils, soon to be called Tesla Coils, made it possible to send and receive radio signals. He quickly filed for American patents in 1897, beating the Italian inventor Guglielmo Marconi to the punch.
Tesla continued to work on his ideas for wireless transmissions when he proposed to J.P. Morgan his idea of a wireless globe. After Morgan put up the $150,000 to build the giant transmission tower, Tesla promptly hired the noted architect Stanford White of McKim, Mead, and White in New York. White, too, was smitten with Teslas idea. After all, Tesla was the highly acclaimed man behind Westinghouses success with alternating current, and when Tesla talked, he was persuasive.
As soon as completed, it will be possible for a business man in New York to dictate instructions, and have them instantly appear in type at his office in London or elsewhere, Tesla said at the time. He will be able to call up, from his desk, and talk to any telephone subscriber on the globe, without any change whatever in the existing equipment. An inexpensive instrument, not bigger than a watch, will enable its bearer to hear anywhere, on sea or land, music or song, the speech of a political leader, the address of an eminent man of science, or the sermon of an eloquent clergyman, delivered in some other place, however distant. In the same manner any picture, character, drawing or print can be transferred from one to another place. Millions of such instruments can be operated from but one plant of this kind.
White quickly got to work designing Wardenclyffe Tower in 1901, but soon after construction began it became apparent that Tesla was going to run out of money before it was finished. An appeal to Morgan for more money proved fruitless, and in the meantime investors were rushing to throw their money behind Marconi. In December 1901, Marconi successfully sent a signal from England to Newfoundland. Tesla grumbled that the Italian was using 17 of his patents, but litigation eventually favored Marconi and the commercial damage was done. (The U.S. Supreme Court ultimately upheld Teslas claims, clarifying Teslas role in the invention of the radiobut not until 1943, after he died.) Thus the Italian inventor was credited as the inventor of radio and became rich. Wardenclyffe Tower became a 186-foot-tall relic (it would be razed in 1917), and the defeatTeslas worstled to another of his breakdowns. It is not a dream, Tesla said, it is a simple feat of scientific electrical engineering, only expensiveblind, faint-hearted, doubting world!
Guglielmo Marconi in 1903. Photo: Library of Congress By 1912, Tesla began to withdraw from that doubting world. He was clearly showing signs of obsessive-compulsive disorder, and was potentially a high-functioning autistic. He became obsessed with cleanliness and fixated on the number three; he began shaking hands with people and washing his handsall done in sets of three. He had to have 18 napkins on his table during meals, and would count his steps whenever he walked anywhere. He claimed to have an abnormal sensitivity to sounds, as well as an acute sense of sight, and he later wrote that he had a violent aversion against the earrings of women, and the sight of a pearl would almost give me a fit.
Near the end of his life, Tesla became fixated on pigeons, especially a specific white female, which he claimed to love almost as one would love a human being. One night, Tesla claimed the white pigeon visited him through an open window at his hotel, and he believed the bird had come to tell him she was dying. He saw two powerful beans of light in the birds eyes, he later said. Yes, it was a real light, a powerful, dazzling, blinding light, a light more intense than I had ever produced by the most powerful lamps in my laboratory. The pigeon died in his arms, and the inventor claimed that in that moment, he knew that he had finished his lifes work.
Nikola Tesla would go on to make news from time to time while living on the 33rd floor of the New Yorker Hotel. In 1931 he made the cover of Time magazine, which featured his inventions on his 75th birthday. And in 1934, the New York Times reported that Tesla was working on a Death Beam capable of knocking 10,000 enemy airplanes out of the sky. He hoped to fund a prototypical defensive weapon in the interest of world peace, but his appeals to J.P. Morgan Jr. and British Prime Minister Neville Chamberlain went nowhere. Tesla did, however, receive a $25,000 check from the Soviet Union, but the project languished. He died in 1943, in debt, although Westinghouse had been paying his room and board at the hotel for years.
Sources
Books: Nikola Tesla, My Inventions: The Autobiography of Nikola Tesla, Hart Brothers, Pub., 1982. Margaret Cheney, Tesla: Man Out of Time, Touchstone, 1981.
Articles: The Problem of Increasing Human Energy With Special References to the Harnessing of the Suns Energy, by Nikola Tesla, Century Magazine, June, 1900. Reflections on the Mind of Nikola Tesla, by R. (Chandra) Chandrasekhar, Centre for Intelligent Information Processing Systems, School of Electrical, Electronic and Computer Engineering, Augst 27, 2006, http://www.ee.uwa.edu.au/~chandra/Downloads/Tesla/MindOfTesla.htmlTesla: Live and Legacy, Tower of Dreams, PBS.org, http://www.pbs.org/tesla/ll/ll_todre.html. The Cult of Nikola Tesla, by Brian Dunning, Skeptoid #345, January 15, 2003. http://skeptoid.com/episodes/4345. Nikola Tesla, History of Technology, The Famous Inventors Worldwide, by David S. Zondy, Worldwide Independent Inventors Association, http://www.worldwideinvention.com/articles/details/474/Nikola-Tesla-History-of-Technology-The-famous-Inventors-Worldwide.html. The Future of Wireless Art by Nikola Tesla, Wireless Telegraphy & Telephony, by Walter W. Massid & Charles R. Underhill, 1908. http://www.tfcbooks.com/tesla/1908-00-00.htm
I know a guy that had the cathode on a TV arc on his nose LOL
That’s bound to leave an impression.
Tesla but who is the other guy?
Is it Sarkozee?
Mark Twain in Tesla's lab
Tesla was the true Mad Scientist of fiction.
"We sting,you use!" (This has been around for a century, about)
This was nice.
Nice? Westinghouse deprived him of millions by cheating his good will, and then paid his room and board?
Yeah, real nice.
...
Adrian Monk.
Is Monk his descendant? They are both rather quirky, to say the least.
This doesn't make a lot of sense to me. Induction and capacitance don't cause any power loss while low voltage DC means in order to deliver power you have to increase current, a lot, which means real power losses in the power lines.
...but a lousy attorney general.
A very good movie, "The Prestige", has Tesla portrayed by David Bowie. Also in the movie are Hugh Jackman, Christian Bale and Scarlett Johannsen.
Not talking low voltage here. Because DC doesn’t have some of the effects of AC current, you can go much higher on voltage. Think millions. I think some AC systems have gotten that high, but it’s much easier with DC.
And line reactivity *is* a major loss point in the power system. You have a virtual power consumption caused by stray capacitance interacting with the AC signal, which causes a current flow that is out of phase with the voltage, which is unfortunately reflected by extra heat dissipation in transformers, etc., because they are flowing current to feed the reactivity of the line. Heat is loss.
On those big long distribution lines, this is a major problem. The power companies stack capacitors to bring down the reactivity of the distribution lines, but it’s not perfect, it’s only a stop gap actually.
Agreed. AC was the best tech of the times in which Tesla lived.
It still does a good job even now, but DC is coming of age with the advent of high voltage power semiconductors.
I don’t think we have to worry that AC is going away at the wall for a long time to come, but it will slowly make its way down to street level in the coming decades as semiconductors just keep getting cheaper and better.
Truth is you will also have significant loss in that Monster Inverter you speak of. Telsa was right back in the day and he is still right today. AC is the best means of long distance power transmission.
There will be loss in the inverter, I agree. But not as much as we are losing on line reactivity now.
And the boost in transmission voltages and reduction in line reactivity related losses will easily overcome the small loss in the inverter.
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