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Nikola Tesla and the Development of Hydroelectric Power at Niagara Falls

Nature has provided an abundant supply of energy in various forms which might be utilized if proper means and ways can be devised.” – Nikola Tesla

Nikola Tesla: Renewable Energy Ahead of Its TimeOne of Nikola Tesla’s first professional forays into the power of nature was the development of hydroelectric power at Niagara Falls. The idea of exploiting flowing water to convert potential energy to kinetic energy to mechanical energy has been around for centuries, but during the 1800s it was combined with the new developments in electricity as a means to generate electrical power.

The very first use of hydropower to generate electricity occurred in England in 1870. William George Armstrong created a series of artificial lakes at his estate, Cragside, which allowed him to power small incandescent lamps. By 1880, development of a brush arc light dynamo driven by a water turbine provided for the first use of hydroelectric power in the United States, lighting theater and storefronts in Grand Rapids, Michigan.

The world’s first actual hydroelectric plant was small in scale and began operation on September 30, 1882 in Appleton, Wisconsin. Powered by the flow of the Fox River, the plant produced only enough electricity to light the home of Appleton paper manufacturer H.J. Rogers, along with the plant itself and a small nearby building. Not dramatic, but it was a beginning.

To this point, rudimentary hydroelectric power relied solely on direct current systems. But as discussed in Tesla: The Wizard of Electricity, direct current has significant limitations. In contrast, Tesla’s alternating current system was what allowed Niagara Falls to become the biggest and most fundamentally different producer of electricity at that time. Success there changed the future of electricity forever.

Niagara Falls

Tesla statue overlooking Niagara FallsNiagara Falls has been attracting attention since it was first discovered, and for good reason. The Niagara River drains Lake Erie into Lake Ontario, resulting in some of the most beautiful falls in the world. Niagara Falls actually encompasses three separate waterfalls: American and Bridal Veil Falls on the American side of the border; Horseshoe Falls generally considered to be on the Canadian side (though the actual demarcation is in dispute due to erosion over the years).

Taken together, and with a maximum vertical drop of more than 165 feet, the three falls provide the highest flow rate of any waterfall in the world. Horseshoe Falls alone is considered to be the most powerful waterfall in North America as measured by vertical height and rate of flow.

It is not surprising that people were interested in using the Falls to make their lives easier. As far back as 1759 a man by the name of Daniel Joncairs had dug a ditch above the Falls on the American side and used the flowing water to turn a waterwheel that powered a small sawmill. Almost 50 years later, in 1805, two brothers bought the rights to American Falls and used the old ditch to feed water to a gristmill and tannery. They then tried to build a larger canal leading to a reservoir on the cliffs, which would be allowed to flow to the gorge through “turbines connected by belts to industrial machinery.” None of those ideas worked out, and several companies went bankrupt trying to finish the project.

In 1853 the Niagara Falls Hydraulic Power & Manufacturing Company was chartered and by 1860 the company had begun construction of a 35-foot wide, 8-foot deep hydraulic canal to transport water from above the Falls to mill sites below the Falls. Delayed by the American Civil War, it would be take another 15 years before the canals were finished and the powerhouse was operational. Initially the plant ran only a single flour mill, but eventually a small generating station was producing enough electricity to light the first direct current lights in the village of Niagara Falls. Then the company went bankrupt.

In 1877, a successful tannery business owner, Jacob Schoellkopf, bought the canal and power rights at Niagara. While previous entrepreneurs had tried to harness the power of the falling water for mechanical energy (e.g., driving mill wheels), Schoellkopf realized the future was in generation of electrical energy. Modifying the existing systems, by 1881 Schoellkopf was providing power to Charles Brush to power “16 electric carbon arc lights” used to illuminate the Falls.

All of this was restricted by the limitations of direct current, which could not transmit more than a mile or two. Growing cities such as Buffalo, only 20 miles away, were unable to get electricity from the power of Niagara. While Schoellkopf’s efforts were a great step forward, something else needed to be done.

Enter Nikola Tesla and George Westinghouse

Nikola TeslaThe Schoellkopf Company was eventually absorbed by the Niagara Falls Power Company run by New York financier, and former Edison Electric Company Board member, Edward Dean Adams. By 1889 a subsidiary called the Cataract Construction Corporation was incorporated and financed by heavyweights of the industrial world, including J. Pierpont Morgan, John Jacob Astor, William Vanderbilt, and the company’s president, Edward Dean Adams himself.

While Cataract began building the needed tunnels, Adams was researching the advantages and disadvantages of the well-known direct current vs the still untested alternating current. The company wanted to send electricity great distances, a major deficiency of direct current. Even the great Thomas Edison could not convince Cataract direct current would do the job, so in 1893 Adams opted for an alternating current system. The contract was awarded to the Westinghouse Electric and Manufacturing Company.

The key to Westinghouse’s win was none other than Nikola Tesla. In My Inventions, Tesla recalls that he first heard of Niagara Falls when still a boy in his backwoods school. Some mechanical models used by his instructors interested him in the idea of water turbines. After hearing a description of the great Niagara Falls, Tesla “pictured in my imagination a big wheel run by the Falls.” He proclaimed to his uncle that one day he would “go to America and carry out this scheme.”

Suddenly he had that chance. Tesla and Westinghouse had teamed up to win the contract to light up the Chicago World’s Fair – also known as the World Columbian Exposition – which opened May 1, 1893. The success of lighting up “the white city” was so impressive that Cataract quickly awarded the Niagara contract to Westinghouse. Tesla’s patented polyphase alternating current system would power the generators and bring electric lights and power to Buffalo. As somewhat of a consolation prize, Thomas Edison’s General Electric Company was hired to construct the long-distance transmission lines. Edison likely found this demeaning, not to mention ironic, given that his preferred direct current system could not be transmitted long distances and was the reason he lost the coveted Niagara contract in the first place. Edison would largely abandon direct current power plants after Niagara, following along on Tesla’s alternating current success.

Let there be energy

The concept behind gaining energy from the Falls is relatively simple. Potential energy is stored at the top of the Falls and as it drops the energy becomes kinetic. To tap it, some of the water that would go over the Falls is displaced through a long tunnel to turn a series of turbines, which converts the energy into mechanical energy, and that generates electricity.

Completed in 1895, Tesla’s polyphase generator could produce 15,000 horsepower, an unprecedented amount of power at that time. The Westinghouse Company would add seven more generating units to raise that level to 50,000 horsepower. On November 15, 1896, Westinghouse Electric, powered by nine key patents comprising Tesla’s polyphase system, began providing alternating current electricity to the city of Buffalo, twenty miles from the Falls. This achievement…

“…was the first alternating current electrical generating plant built on a large scale in the world. Its success encouraged the international creation of hydroelectric stations, now the most widely used form of renewable energy.”

Courtesy of NMAH Smithsonian InstitutionTesla’s success changed the world, and soon many other power stations would be built at Niagara and elsewhere in the United States. Within ten years hydroelectric plants would provide 15 percent of all the electricity in the U.S.; by 1920 that had reached 25 percent.

Tesla himself only made his first visit to the plant on July 19, 1896. It was his transformers that solved one of the most difficult problems in electrical science, but he was too busy to visit the site. In fact, on March 13, 1895, just as the generators using his technology were about to become operational at Niagara, his New York City laboratory burned to the ground. Rebuilding his equipment, and extracting the theoretical knowledge stored in his head, would keep him occupied for many months. When Tesla did finally find time, he noted that he was “delighted” with his visit to Niagara Falls. After touring “from top to bottom of the power plant,” he added, “You may say it is the greatest and the best, the most thoroughly equipped in the world.” And Tesla was right.

Tesla noted that in addition to Niagara there were many waterfalls that could be tapped for their natural energy. While most people react with awe upon seeing Niagara and the other great waterfalls, Tesla dispassionately focused on the mechanics of how their awesome power could be exploited for the generation of electricity.

“Great waterfalls exist in many inaccessible regions of the globe and new ones are being discovered, all of which will be eventually harnessed when the wireless transmission of energy is commercialized.”

Much credit has to be given to George Westinghouse and his willingness to take the chance on new technologies. Tesla himself was positively effusive about Westinghouse. Thomas Edison, on the other hand, tried to discredit alternating current; he even suggested the wires might be better put to use drying laundry. Another renowned electrician of the time, Charles Proteus Steinmetz, “had a very poor opinion” of Tesla’s induction motor. To Tesla, George Westinghouse was “a genius of the first degree…a man truly great, of phenomenal powers,” and perhaps even more importantly, “undertook to wage a war [based on Tesla’s alternating current technology] against overwhelming odds.” Together, Tesla and Westinghouse’s alternating current won “the war of the currents” over Edison’s direct current. The world still benefits today from that victory each and every time we use the electricity transported long distances to our homes and businesses.

To honor his role in bringing hydroelectric power to Niagara Falls, the main power station would be named after Edward Dean Adams in 1927. Adams would make the cover of Time magazine on May 27, 1929. Nikola Tesla would do the same just over two years later, on July 20, 1931, in celebration of his 75th birthday and a lifetime of achievement. Tesla’s inventions had not only revolutionized electrical generation, they did what he always wanted to do – “harness the forces of nature for the service of mankind.”

[The above is adapted from my e-book, Nikola Tesla: Renewable Energy Ahead of Its Time, available on Amazon.com.]

Read other posts on Nikola Tesla here on Science Traveler.

David J. Kent is the author of Lincoln: The Man Who Saved America, now available. His previous books include Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

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[Daily Post]

Nikola Tesla – The Road to Wireless and Wardenclyffe

Wardenclyffe. The laboratory, with its iconic tower, has once again reached the almost mythical proportions it once attracted when Nikola Tesla was first erecting it. The recent purchase of the property by the Tesla Science Center at Wardenclyffe ensures that Tesla’s name will touch a new generation of students eager to know about this almost forgotten inventor.

But the concept of wireless telegraphy had become an obsession with Tesla long before the tower began to rise near the Long Island shoreline. Back in the days that Tesla toiled in his South Fifth Avenue laboratory the idea of “radio” began taking shape. According to John O’Neill, Tesla’s friend and first biographer, Tesla had been on the verge of making the “first distance demonstration of his wireless system.” But then in 1895 his laboratory burned to the ground. Everything was lost – his equipment, his experiments, his notebooks, and his dreams. This catastrophe would set Tesla back long enough to give a certain Guglielmo Marconi a chance to leapfrog ahead and receive credit for the discovery of radio.

Off to Colorado Springs

Tesla reestablished himself in another lab in Manhattan, but quickly found the space to be rather limiting for the type of experiments he wanted to pursue. As luck would have it he was invited to build a laboratory in Colorado Springs. Blessed, or perhaps cursed, as one of the most active lightning strike areas in the country, this perfect location also came with a promise of unlimited access to electricity from the city’s newly built alternating current distribution system. Toss in a $30,000 feed stake from Col. John Jacob Astor and Tesla was westward bound.

During his nine-month stay in Colorado beginning in June 1899 and ending in January 1900 Tesla kept voluminous notes and drawings, explicitly detailing his many experiments. Scientists are still today poring through those notes to see what other wonders are yet to be discovered from Tesla’s work.

It was here that Tesla decided it was possible to transmit electric energy through the earth under the proper conditions of resonance. Tesla “quickly discovered that the earth is charged to an extremely high potential and is provided with some kind of a mechanism for maintaining its voltage.” He believed that he had found stationary waves, and that the planet behaved like a conductor. Already the significance of this phenomenon as it relates to the transmission of energy had become clear to Tesla. “Not only was it practicable to send telegraphic messages to any distance without wires, as I recognized long ago, but also to impress upon the entire globe the faint modulations of the human voice, far more still, to transmit power, in unlimited amounts, to any terrestrial distance and almost without loss.”

The main focus of his stay in Colorado was conducting wireless telegraphy experiments with the goal of perfecting the long-range transmission of radio signals. In some of his experiments he tested the idea of how to “tune” a wireless transmitter to respond to specific signals while rejecting others. This improvement was critical for the development of wireless transmission in order to avoid the interception of a signal by others. Alas, while his time in Colorado was extremely productive, one experiment knocked out the little Colorado Springs power station. Not long after, Tesla packed up his bags and headed back East.

[continues below the photo]

Tesla Magazine interview

David J. Kent being interviewed by Tesla Magazine

Wardenclyffe

Having advanced his wireless transmission of radio waves and energy in Colorado, Tesla returned to New York in early 1900 with a plan. He envisioned the ability to broadcast under multiple wavelengths from a single station. Purchasing 200-acres in a prime location near present day Shoreham, Long Island and an influx of money from venture capitalists – including a massive $150,000 stake from industrialist J. Pierpont Morgan alone – Tesla began working on the facility and tower that would be named Wardenclyffe.

Designed by famous architect Stanford White, Wardenclyffe consisted of an odd looking tower about “187 feet high, having a spherical terminal about 68 feet in diameter.” Tesla insisted that these dimensions were sufficient “for the transmission of virtually any amount of energy.” Right from the beginning, however, there were design problems. Many contractors balked at the idea of building such a large skeleton of wood topped by a large semicircular electrode that presented itself like a sail to the wind. Tesla also quickly used up the money provided by Morgan, who was none too pleased about the idea of continuing to finance an operation that may never produce results or provide any return on his investment.

Tesla continued to do preliminary experiments as construction moved forward, though this occurred unevenly because of financial difficulties and many last-minute design changes. Wardenclyffe was much more expensive to build than either Tesla or Morgan had anticipated.

But Wardenclyffe was to be the site where Tesla’s World Wireless System would provide a lucrative commercial exploitation of his long-theorized wireless communication system. This world system combined several of Tesla’s inventions and made possible “not only the instantaneous and precise wireless transmission of any kind of signals, messages or characters, to all parts of the world, but also the inter-connection of the existing telegraph, telephone, and other signal stations without any change in their present equipment.” It was to be the future.

The basic principles were relatively simple. The Earth would act as a conductor of electrical energy, just as would a current flowing through a wire or other conductors. A grounded Tesla coil transmitter would create a large displacement of the Earth’s electric charge. A similar Tesla coil tuned to the same frequency could be used as the receiver, and the energy would flow wirelessly through the Earth from one to the other. Whether this would actually work was something neither Tesla nor anyone else to date has been able to determine.

Unfortunately, the most recent economic downturn of the time – the “Panic of 1901” – had severely strained the available investment opportunities for continuing the wireless work. Tesla wrote to J. Pierpont Morgan repeatedly asking for additional funds, all without reply. Then came Marconi’s (apparent) transmission of the letter “S” from England to Newfoundland. Marconi, using ideas patented by Tesla, had beaten Tesla to the punch. Morgan was livid. Tesla was frantic. By mid-1903 the future of Wardenclyffe looked bleak and Tesla wrote Morgan again – this time to impress upon him that his World Wireless System could accomplish much more than just the wireless communication intended for the tower, it could also provide wireless transmission of electric power. Morgan remained unimpressed. Not seeing how he could make any profit from this “free energy,” he replied in late 1904 that it would “be impossible for [him] to do anything in the matter.” Morgan also discouraged other financiers from investing in Tesla’s enterprise. With Tesla’s earlier alternating current motor patents, and their associated royalties, expiring in 1905, Tesla was quickly running out of money to fund Wardenclyffe.

While Tesla did accomplish some useful things on the site, including invention of his bladeless turbine and sales of Tesla coils, for all intents and purposes the Wardenclyffe experiment was over. Wardenclyffe was eventually transferred to George Boldt of the Waldorf-Astoria in payment for all the years of unpaid hotel charges accrued to Tesla. Depending on who is telling the story, the tower was destroyed in 1917 either by a contractor for scrap so that Boldt could recoup some of his lost income, or by the government to keep it from being used by German spies.

Tesla was not finished inventing, but the most productive time of his life was slowly coming to an end.

But now, nearly a century later, Tesla’s laboratory is being resurrected from years of neglect. Its restoration as a museum and science center is a fitting tribute to a man whose contributions have also long been neglected. Together the museum and the name of Tesla will rise again.

[The above is my contribution to the very first Tesla Magazine, July 10, 2013.]

David J. Kent is the author of Lincoln: The Man Who Saved America, now available. His previous books include Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

Check out my Goodreads author page. While you’re at it, “Like” my Facebook author page for more updates!

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Tesla and Edison: The War is Lost

We’ve previously looked at Tesla and Edison fighting the War of the Currents (Part I and Part II). Now we come to the final round in the battle.

Tesla vs Edison cartoon

Two events were major factors in deciding the war of the currents. In 1893 there was a competition to determine who would get the contract to light up the World’s Columbian Exposition. Also known as the Chicago World’s Fair, the six-month-long exposition was to showcase new technology from all over the world. Both the General Electric Company and the Westinghouse Electric Company (powered by Tesla’s alternating current technology) were among the competitors. Edison’s direct current was pitted against Westinghouse’s alternating current. Bidding was brutal as Edison and Westinghouse viciously undercut each other in an attempt to land the plum contract. Other competitors were quickly eliminated, and Westinghouse ultimately won. Tesla’s polyphase alternating current system lit up the fair.

The result was spectacular. Nicknamed the “White City” because of the white stucco buildings surrounding the central pool, the name also could have referred to the brilliant aura created by 92,000 outdoor incandescent lamps that lit the grounds for six months. Including all the interior lamps, the fair required 250,000 modified Sawyer-Mann “stopper lamps,” a competing bulb Westinghouse raced to produce because Edison refused to allow use of his patented long-life bulbs. Edison was not shut out completely, however, as he was able to display several of his own inventions in the showcase electrical building, including the dominating “Edison Tower of Light.”

Because of the success of alternating current at the Chicago World’s Fair, the team of Westinghouse and Tesla also beat out Edison for the next major contract at Niagara Falls. The Niagara River flows north from Lake Erie to Lake Ontario, dropping up to 188 feet over some of the most spectacular falls in North America. Engineers had made only limited use of the power of the falling water until the newly formed Cataract Construction Company (led by former Edison Electric Board member Edward Dean Adams) chose to base its new electrical power plant on a dozen Tesla patents. Tesla’s polyphase generator system beat out Edison’s direct current, but Edison won the contract to string electrical wires from Niagara to Buffalo, nearly twenty miles away.

These setbacks effectively removed Edison from the electric power generation business, a process that had already begun back in 1892, when competition and J. P. Morgan’s maneuverings forced Edison to merge his Edison General Electric Company with the Thomson-Houston Company to form the new General Electric. While somewhat bitter at how he had been treated, Edison turned to other pursuits, including iron ore milling and the development of motion picture projectors. Edison was about to become a movie mogul, albeit a reluctant one. Tesla also turned to other pursuits, including Wardenclyffe.

[This is part II of a three part series on Tesla vs Edison in the War of the Currents, all adapted from my book Edison: The Inventor of the Modern World. Also check out my earlier book, Tesla: The Wizard of Electricity. Both are available in Barnes and Noble stores nationwide. See links below. Part I of the series can be read here. And here is Part II.

David J. Kent is the author of Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate. His next book, Lincoln: The Man Who Saved America, is scheduled for release in summer 2017.

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Tesla: The Wizard of Electricity Now Available in Spanish!

My book, Tesla: The Wizard of Electricity, is now available in Spanish!

Tesla Wizard Spanish edition

The book has been a fantastic success in the United States and worldwide. Dutch and German editions (below) have been available since 2015, and now as of January 1, 2017, you can pick up a Spanish edition.

Translations into other languages, including Turkish, are currently in negotiations.

After you read Tesla, check out my Edison book, where Tesla finally gets the recognition he deserves in an Edison biography. Also, don’t forget to check out my two Tesla e-books below.

And watch for Lincoln: The Man Who Saved America, due in Barnes and Noble stores July 2017.

David J. Kent is the author of Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate. His next book, Lincoln: The Man Who Saved America, is scheduled for release in summer 2017.

Follow me by subscribing by email on the home page.  And feel free to “Like” my Facebook author’s page and connect on LinkedIn.  Share with your friends using the buttons below.

Tesla and Edison: The War of the Currents Continues

As described previously, Thomas Edison and Nikola Tesla fought what has come to be known as the “war of the currents.” Tesla had developed his complete alternating current induction motor and all the associated transformers, then hooked up with George Westinghouse to compete against Edison’s already established direct current system.

Tesla vs Edison

Edison did not give in easily. He began a public relations campaign to discredit alternating current as too dangerous for public use. He had a point. Alternating current could be raised to incredibly high voltages, whereas direct current was held at relatively low voltages. Edison published pamphlets ominously titled A Warning from the Edison Electric Light Company suggesting alternating current was not safe. He also (falsely) suggested to suppliers and utilities that Westinghouse was in violation of Edison’s patents, and thus it would be unwise to rely on the soon-to-be-departed technology. Engineering societies debated the merits, although sometimes the charges and countercharges seemed more personal than professional, with combatants “fighting tooth and nail” for the future.

The battle between AC and DC also got bloody. While relatively rare, accidents sometimes occurred on the network of naked electrical wires strung on poles set alongside city streets. One particularly gruesome scene occurred when John Feeks, an electrical repairman sent up to remove dead wires, accidentally found a live one and fell into a nest of wires, where he “dangled for more than forty-five minutes.” Streaks of light flashed from his body as spectators gasped in horror below. Reporters raced from the scene to get quotes from Edison on the dangers of alternating current, which he duly provided without knowing whether the wires were AC or his own DC.

Edison also actively lobbied for use of the electric chair to replace the usual means of execution, an overdose of morphine or hanging. He felt the chair would be more humane because it would provide a quicker, cleaner kill. More important, it would use alternating current, further bolstering Edison’s claim that alternating current was too dangerous for humanity. Some members of the committee set up to evaluate the methods were skeptical until Edison sent a letter of support. “I certainly had no doubt after hearing his statement,” one committee member said, and the recommendation was implemented. Unfortunately for Edison, and for the poor axe murderer William Kemmler on which it was first used, the execution did not go smoothly. After supposedly being electrocuted to death, Kemmler suddenly let out a loud cry of pain, to which the attendants responded by turning the power up to full for two minutes, long enough for “the stench of burning flesh” to fill the room.

Edison also allowed electrical engineer Harold Pitney Brown to use his laboratory for a series of experiments. Brown paid neighborhood boys to collect stray dogs, which he then electrocuted in Edison’s lab using Westinghouse’s alternating current. He then wrote letters to the press exclaiming the dangers of that “damnable” alternating current. To denigrate his main competitor completely, Edison called the electrocutions “getting Westinghoused.”

Two huge events were major factors in deciding the war of the currents. More on that in the next installment.

[This is part II of a three part series on Tesla vs Edison in the War of the Currents, all adapted from my book Edison: The Inventor of the Modern World. Also check out my earlier book, Tesla: The Wizard of Electricity. Both are available in Barnes and Noble stores nationwide. See links below. Part I of the series can be read here. Here is Part III.]

David J. Kent is an avid science traveler and the author of Lincoln: The Man Who Saved America, in Barnes and Noble stores now. His previous books include Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World and two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

Check out my Goodreads author page. While you’re at it, “Like” my Facebook author page for more updates!

Abraham Lincoln, Joseph Henry, and Nikola Tesla – Connected by Fate

When Abraham Lincoln took the presidential oath on March 4, 1861, he would become the first president ever to have obtained a patent. Patent Number 6469 was awarded to Lincoln on May 22, 1849 for a device to lift boats over shoals and obstructions. Lincoln writes in his patent application:

Be it known that I, Abraham Lincoln, of Springfield, in the county of Sangamon, in the state of Illinois, have invented a new and improved manner of combining adjustable buoyant air chambers with a steam boat or other vessel for the purpose of enabling their draught of water to be readily lessened to enable them to pass over bars, or through shallow water, without discharging their cargoes and I do hereby declare the following to be a full, clear, and exact description thereof, reference being had to the accompanying drawings making a part of this specification.

It was the only patent Abraham Lincoln ever received, and the only patent ever given to a President, either before or after their presidency. In contrast, Nikola Tesla had around 300 patents to his name.

Tesla may have had more patents (after all, he was an inventor), but Lincoln always had an interest in invention. During his career as a lawyer he was routinely sought for patent and technologically-dependent legal cases, and during the Civil War he often took matters into his own hands and personally tested some of the biggest technological advances in weaponry. Since he was not classically trained as a scientist – he barely finished one year of formal schooling – Lincoln called on experts to advise him. His biggest scientific adviser during the Civil War was Joseph Henry.

Calling Joseph Henry

Most people likely do not know it, but Nikola Tesla, Thomas Edison, Alexander Graham Bell, Samuel F.B. Morse, Michael Faraday, and others owe their fame, at least in part, to Joseph Henry.

As the Civil War loomed, with Washington D.C. a critical centrality in both the conflict and the potential solution, Joseph Henry was still getting settled into the red sandstone “Castle” that we have all come to know as the symbol of the Smithsonian Institution. The building itself, like the Institution, was relatively new, completed only about six years before Lincoln’s arrival. As the first Secretary of the Smithsonian, and later also as chair of the Permanent Commission to advise the Navy on scientific matters, Henry was one of Abraham Lincoln’s most trusted science advisers. Henry and Lincoln became good friends and worked together to address a wide variety of technological and scientific issues during the Civil War.

So what does Joseph Henry have to do with Nikola Tesla? It turns out, a lot, even though Henry died a few years before Tesla first set foot on American soil.

A precocious child with little interest in formal education, the young Henry stumbled across a book called Lectures on Experimental Philosophy, Astronomy and Chemistry; the book changed his life. Eagerly devouring the scientific principles it contained, Henry began a largely self-taught course in the sciences. Eventually he was taken in by a mentor at the Albany Academy and focused on the nascent field of electricity. Henry excelled in his studies and one day decided to improve upon a weak electromagnet design by William Sturgeon. While the original design used loosely coiled uninsulated wire, Henry wrapped the coils tightly with silk for insulation. The result was four hundred times the original strength. Further improvements led to the powerful electromagnet that became the standard in modern times. This was in 1827, more than fifty years before Tesla came to America.

A few years later, in 1831, Joseph Henry’s innovations led to the first machine to use electromagnetism for motion, effectively, the precursor to the modern direct current motor. It was a simple design, the linear rocking from side to side of a standard electromagnet, but it was the basis for the rotating motion motors eventually designed by Nikola Tesla for his alternating current system. Henry’s simple apparatus allowed him to discover the principle of self-inductance (electromagnetic inductance).

Henry did not stop there. His experiments demonstrated that using an electromagnet in which two electrodes are attached to a battery, winding several coils of wire in parallel worked best. In contrast, if multiple batteries were used, a single long coil was best. This discovery is what made the telegraph feasible.

So why is it we do not hear about Joseph Henry as the father of the electromagnet, or father of the telegraph, or father of self-inductance? In short, Henry was always hesitant to publish any of his work. While he delayed writing up his discoveries, and there were many, others were quick to publish, sometimes after hearing about Henry’s work and “borrowing” it for their own. Famed scientist Michael Faraday, who most credit as the father of self-inductance, actually got at least some of his ideas from a meeting with Joseph Henry; while Henry hesitated, Faraday rushed to publish first. Similarly, Samuel F.B. Morse gets credit for being the father of the telegraph even though it was Joseph Henry’s key discoveries that made it possible; again, after meeting with Henry, Morse took advantage of Henry’s hesitation to publish.

That gets us to Nikola Tesla. Like Thomas Edison and others who developed electric lighting and power in the 1880s and beyond, it was Joseph Henry (and Faraday and others) who had discovered the principles on which the later inventions were based.

In fact, Joseph Henry and Nikola Tesla share yet another claim to fame – both of them have been honored with an international scientific unit (SI). Based on his work with electromagnetic energy, the tesla (T), an SI unit of magnetic flux density and equal to “one weber per square meter,” was named in Tesla’s honor. His forerunner, Joseph Henry, was honored with the SI unit of inductance, the henry (H), for his earlier discoveries in electromagnetic induction.

There are many other connections between Abraham Lincoln and Nikola Tesla, which I discuss in the e-book from which the above is excerpted, Abraham Lincoln and Nikola Tesla: Connected by Fate. Joseph Henry, whose early discoveries with electromagnetism, electricity, and the telegraph, became the key principles upon which Nikola Tesla and others made names for themselves years later, was just one connection. Check out the book for more.

David J. Kent is the author of Lincoln: The Man Who Saved America, now available. His previous books include Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

Check out my Goodreads author page. While you’re at it, “Like” my Facebook author page for more updates!

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Tesla and Edison: The War of the Currents

Thomas Edison engaged in three battles in his quest to electrify New York City. First he fought the gas industry, then arc lighting, and then his most famous battle against the polyphase alternating current system of Nikola Tesla.

Tesla vs Edison War of the Currents

Tesla was a Serbian engineer who had bounced around Austria, the current Czech and Slovak Republics, and Hungary before taking a job working for Continental Edison in Paris. While in Budapest he had envisioned a way to solve one of the biggest problems with direct current, the sparking commutator. Like Edison, Tesla also labored eighteen to twenty hours a day, a habit that occasionally sent him into a serious bout of exhaustion. After one such incident he was walking through a downtown park reciting the epic poem Faust by Johann Goethe when suddenly he stopped:

“The idea came to me like a flash of lightning and in an instant the truth was revealed. I drew with a stick on the sand the diagrams…The images I saw were wonderfully sharp and clear.”

Tesla envisioned the rotating magnetic field that would become his alternating current motor, which solves the problem that had kept alternating current from replacing direct current as a power source. It would be many more years before Tesla would have a chance to build his motor. (He created his prototype while fixing Edison’s direct current dynamos in Strasbourg—the ones that nearly killed Emperor Wilhelm.)

By the time the unknown Tesla arrived in New York in 1884, Edison was already famous and well on his way to establishing a monopoly on providing electricity to New York and other cities. During the year that Tesla worked for Edison, in which he revamped and improved direct current dynamos, he tried repeatedly and unsuccessfully to convince Edison that it would be better to use alternating current using his unproven rotating magnetic field induction motor. But Edison had already ruled out alternating current as viable power source, and he was permanently invested in the massive infrastructure he had already created for direct current. Tesla grew fed up, and eventually quit.

Tesla vs Edison

Meanwhile, Edison’s direct current empire continued to expand to other cities and states, although not without competition. In 1882, George Westinghouse—famous for his invention of the air brake for railroad cars—bought out Philip Diehl’s competing induction lamp patent rights, which forced Edison to lower the licensing rate for using his patents, thus reducing the price of electric lamps (and Edison’s profit). Other direct current companies, like Thomson-Houston, also pressured Edison to keep his rates reasonable. The ubiquitous patent lawsuits kept everyone busy trying to protect their own businesses.

Edison was clearly the leader in this field, but that was about to change. Westinghouse formed his own electric company in 1886, and by 1888 Tesla finally had developed his complete alternating current induction motor and all the associated transformers. This revolutionized the industry. Westinghouse purchased the rights to Tesla’s patents and hired him to incorporate them into his own systems. The war of the currents was officially on.

Eventually, Tesla would go on to win that battle. More on that in a future post.

[This is part I of a three part series on Tesla vs Edison in the War of the Currents, all adapted from my book Edison: The Inventor of the Modern World. Also check out my earlier book, Tesla: The Wizard of Electricity. Both are available in Barnes and Noble stores nationwide. See links below. Part II of the series can be read here. Here is Part III.]

David J. Kent is an avid science traveler and the author of Lincoln: The Man Who Saved America, now available. His previous books include Tesla: The Wizard of Electricity and Edison: The Inventor of the Modern World (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

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[Daily Post]

Tesla and Edison in Barnes and Noble

I’ve been offline a lot lately due to a major eye surgery and ensuing inflammation. But while I’ve been a bit down and out, my Tesla and Edison books have been in Barnes and Noble bookstores.

Tesla and Edison in BN August 28 2016

Tesla bottom middle; Edison top right

For a while they weren’t being displayed because B&N wanted to promote their ridiculously overwhelming selection of “adult coloring books.” Yes, we’ve reached the point where adults actually have regressed to the point where any words are too many words. Luckily the coloring book phase seems to be winding down and they’ve put out both of my books. So run down to your local store and check them out.

Meanwhile, I’m busy working on my next book in the same style – on Abraham Lincoln!

I’ll write more shortly. The swelling of my eye has gone down enough for me to make short forays onto my laptop, but I should be up and writing full time again in the next few days.

David J. Kent is the author of Tesla: The Wizard of Electricity (2013) and Edison: The Inventor of the Modern World (2016) (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

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Tesla to Edison to Lincoln Redux

Early in the history of Science Traveler I wrote a post called “Tesla to Edison to Lincoln – Connecting the Dots.” It turns out that post was more prophetic than I ever could have imagined.

At the time I was still writing my book on Nikola Tesla, which was released in the summer of 2013. Three years later Tesla is into its 7th printing, is still selling well in Barnes and Noble stores, and has been translated into several foreign languages.

The success of Tesla led the publication of my book on Thomas Edison, which hit Barnes and Noble stores a couple of weeks ago (late July 2016). Future books in the series a possibility.

The popularity of my science series books has inspired the publisher to expand into a series on key historical figures. Among the first to be tackled is Abraham Lincoln. Since I’ve long been a history buff, in particular Abraham Lincoln (I have over 1200 Lincoln books on my shelf), it looks like I’ll be writing the first in the series.

Tesla to Edison to Lincoln!

Tesla Edison Lincoln

I’ll have more details once they get ironed out. The anticipated release date is sometime in 2017, but keep checking back here for updates. And look for my Tesla and Edison books in stores now!

David J. Kent is the author of Tesla: The Wizard of Electricity (2013) and Edison: The Inventor of the Modern World (2016) (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

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Tesla vs Edison – The Battle Begins

Tesla vs Edison cartoonNikola Tesla was a sometimes eccentric genius who changed the world. Thomas Edison was a sometimes eccentric genius who changed the world. Wait, can both of those be true? Yes, and here’s why.

As I’ve written before, Tesla and Edison were two very different men of invention. Tesla liked to work alone and think big, while Edison commanded an “invention factory” and tinkered improvements incrementally. Tesla dressed impeccably and received formal college education, while Edison dressed frumpily and had almost no formal education. Tesla focused on inventing and let others try to commercialize his work; Edison focused on commercializing his work quickly, often before it was even ready.

On the other hand, both were hard workers and both helped bring new technologies into existence. And while we often think we know all about the two men, each gives us a few surprises, as these two prior posts show:

5 Things You Didn’t Know About Nikola Tesla

5 Things You Didn’t Know About Thomas Edison

It’s common for fans of Tesla to dismiss Edison, and vice versa. In reality their lives overlapped only briefly along one type of technology – AC vs DC power. Tesla (with George Westinghouse) won that battle. But outside of that issue their lives went in different directions. Tesla made significant advances in radio, wireless and renewable energy, neon lighting, rotary engines, bladeless turbines, and robotics, among others. Edison got into phonographs, film making and projection, iron ore milling, Portland cement, and a domestic source of rubber.

Tesla alwaysInterestingly, both had a connection to science fiction. Tesla’s friend Hugo Gernsback (after whom the science fiction Hugo Awards are named) adapted many of Tesla’s ideas and inventions in his Amazing Stories and other series. And Thomas Edison? Well, Edison began writing a science fiction novel himself, though he never quite got around to finishing it.

In 2013 I was honored to write a book about Nikola Tesla. Tesla: The Wizard of Electricity is now into its 7th printing and still selling well in Barnes and Noble stores, as well as translations around the world. This year, 2016, my new book on Thomas Edison is in the stores. Edison: The Inventor of the Modern World hit shelves in late July.

And now the battle is on. Can Edison beat out Tesla in the marketplace? Or will Tesla win the battle of the books? Frankly, I think both men – and both books – have a place in the world. Both made huge contributions to society along largely different paths. Both men are worth learning more about. I hope you’ll read both books.

Edison: The Inventor of the Modern World

Nikola Tesla

 

 

 

 

 

 

 

 

David J. Kent is the author of Tesla: The Wizard of Electricity (2013) and Edison: The Inventor of the Modern World (2016) (both Fall River Press). He has also written two e-books: Nikola Tesla: Renewable Energy Ahead of Its Time and Abraham Lincoln and Nikola Tesla: Connected by Fate.

Follow me by subscribing by email on the home page.  And feel free to “Like” my Facebook author’s page and connect on LinkedIn.  Share with your friends using the buttons below.