Category: scientists

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“Radio Power Will Revolutionize The World.” By Alfred Albelli. Modern Mechanix, July, 1934.

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“Radio Power Will Revolutionize The World.” By Alfred Albelli. Modern Mechanix, July, 1934.

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***Science Vs. Art***

“There is a conflict between science and art. By ‘art’, I mean a certain integrated idealism. It is a centripetal something, opposed to the endless centrifugal forces of science. Eventually science will fly apart and fall of its own forces. There is too much for anyone to know. It is no longer possible, as in Bacon’s day, for one man to take all knowledge as his province. The seeds of decay and disunion are there as a mass becomes too unwieldy—it works like everything else in nature—attractions set up repulsions, backwards and forwards it goes, now one side winning, now the other side.

“Science will win in the present set up of things but it will likely carry civilization down with it when it goes. Then art will have to step in, gather up the pieces and carry on. Of course it is possible that there will be developed scientists who are artist as well. They must realize that there is something dynamic about idealism and apply that dynamism as they would any other force. Then civilization may be able to continue. But I doubt it—forces and counter forces—attractions and repulsions—all say “no.”

–Nikola Tesla.

“Tesla Predicts New Source of Power in Year.” New York Herald Tribune, July 9, 1933.

drnikolatesla: Nikola Tesla Won 8 Nobel Prizes For His Work And Discoveries. No He Didn’t. These…

drnikolatesla:

Nikola Tesla Won 8 Nobel Prizes For His Work And Discoveries. No He Didn’t. These People Did Instead.

  1. Wilhelm Conrad Röntgen, Physics, 1901: Wilhelm Roentgan was awarded the first Nobel Prize in physics for his discovery of X-Rays on November 8, 1895. Not many know this but Tesla was working with X-Rays prior to Roentgen in 1892, but used the term “radiant matter” instead. He conducted numerous experiments and some of the first imaging, which he called “shadowgraphs,” using these unknown rays in his laboratory before its destruction by fire on March 13, 1895. Tesla was also the first to warn the scientific world on the harms of these rays if not used properly.
  2. Marie Curie, Pierre Curie and Antoine Henri Becquerel, Physics/Chemistry, 1903/1911: The three shared the 1903 Nobel Prize in Physics for their discovery and work on radioactivity in 1898. Madame Curie won the 1911 Nobel Prize in Chemistry for her discovery of radium and polonium, also in 1898. Tesla discovered radioactivity in experiments with X-Rays in 1896, and published many articles on the subject in scientific periodicals prior to the three.
  3. Joseph John Thomson, Physics, 1906: Thomson was awarded the Nobel Prize for his discovery of the electron in 1897. Tesla originally called electrons “matter not further decomposable” in his experiments with radiant energy in 1896, but his finding of the electron goes back to when he and Thomson had a back and forth debate in 1891 about experiments with alternating currents of high frequency. Tesla claimed that his experiments proved the existence of charged particles, or “small charged balls.” Thomson denied Tesla’s claim of verifying these particles with his vacuum tubes until witnessing Tesla’s experiments and demonstrations given in a lecture before the Institute of Electrical Engineers at London in 1892. Thomson then adapted to Tesla’s methods and was able to create equipment which allowed him to produce the required high frequencies to investigate and establish his electron discovery. 
  4. Guglielmo Marconi and Karl Ferdinand Braun, Physics, 1909: Both shared the Nobel Prize for their work and development of radio. Marconi is known for proving radio transmission by sending a radio signal in Italy in 1895, but it is a fact that he used Tesla’s work to establish his discovery. Tesla invented the “Tesla Coil” in 1891, which radio relies on, and the inventor proved radio transmission in lectures given throughout 1893, sending electromagnetic waves to light wireless lamps. Tesla filed his own basic radio patent applications in 1897, and were granted in 1900. Marconi’s first patent application in the U.S. was filed on November 10, 1900, but was turned down. Marconi’s revised applications over the next three years were repeatedly rejected because of the priority of Tesla and other inventors. After Tesla’s death in 1943, the U.S. Supreme Court made Marconi’s patents invalid and recognized Tesla as the true inventor of radio.
  5. Charles Glover Barkla, Physics, 1917: Barkla was awarded the prize for his work with Rontgen radiation and the characteristics of these X-rays and their secondary elements and effects. He was educated by J. J. Thomson. Again, Tesla worked with and explained these radiations in full detail throughout the late 1890s, showing that the source of X-rays was the site of first impact of electrons within the bulbs. He even investigated reflected X-rays and their characteristics such as Barkla.
  6. Albert Einstein, Physics, 1921: Einstein was awarded the prize for his theoretical theories which are still praised today, and also his discovery of the law of the photoelectric effect (I have many other post that show Tesla’s fair arguments against Einstein’s theories so I will only dwell on the photoelectric effect). Einstein first postulated that light has a nature of both waves and particles in 1905. This lead to the development of “photons,” or photo electrons, which gave light a wave-particle duality. Now it must be noted that Nikola Tesla wasn’t just a theoretical physicist like Einstein, but was an experimental physicist as well. In 1896, Nikola Tesla was the first to promulgate that energy had both particle-like and wavelike properties in experiments with radiant energy. He set up targets to shoot his cathode rays at which upon reflection, projected particles, or vibrations of extremely high frequencies. Instead of taking the particle-wave duality route, he proposed that they were indeed vibrations, or basically sound waves in the ether. Nikola Tesla preceded by Einstein 4 years on the photoelectric effect publishing a patent titled “Apparatus of the Utilization of Radiant Energy.” filed in 1901, based off his experiments with radiant energy. He had a far better understanding on the matter than Einstein had, because he actually developed experimentations to prove his theories.
  7. James Chadwick, Physics, 1935: Awarded the prize for his discovery of the neutron in 1932. Tesla’s discovery of neutrons goes back to his work with cosmic rays, again in 1896, which are mentioned in the next bit. He investigated and discovered that cosmic rays shower down on us 24/7, and that they are small particles which carry so small a charge that we are justified in calling them neutrons. He measured some neutrons from distance stars, like Antares, which traveled at velocities exceeding that of light. Tesla succeeded in developing a motive device that operated off these cosmic rays
  8. Victor Franz Hess, Physics, 1936: Hess won the Prize for his discovery of the cosmic rays in 1919. Tesla predated him 23 years publishing a treatise in an electrical review on cosmic rays in 1896. Tesla’s knowledge on the matter surpasses even today’s understanding of cosmic rays.

If this isn’t proof enough that Nikola Tesla got shit on, then I will add that Tesla definitely should have won the Nobel Prize for being the first person to invent the commutatorless alternating current induction motor (a huge part of the electrical power system we still use today), for his inventions and work with light bulbs, radar, for his invention of remote control, and most importantly for demonstrating the transmission of electrical energy/power without wires. Ahead of his time is an understatement.

Screw the Nobel Prize.

drnikolatesla: The History of the Photoelectric Effect In…

drnikolatesla:

The History of the Photoelectric Effect

In 1905, Albert Einstein gained world fame for supposedly being the first to propose that light has a nature of both a wave and a particle. This theory lead to the development of “photons,” or photo-electrons, which describe light with a wave-particle duality. In 1921, Einstein was awarded the Nobel Prize in Physics for his theoretical physics and his explanation of the photoelectric effect. A theory that even today is still accepted as a certainty.

In 1887, Heinrich Hertz discovered the photoelectric effect, but it is a fact that Nikola Tesla was the first to explain the effect. Einstein was a very intelligent scientist, but he lacked wisdom. Unlike Einstein, Nikola Tesla wasn’t just a theoretical physicist who based all his theories off other scientists’ work (like James Clerk Maxwell and Heinrich Hertz), but was an experimental physicist as well, who based all his theories off experimental research and data from which he himself conducted and recorded.

In 1896, with experiments with radiant energy and high-vacuum tubes, Nikola Tesla was the first to publicize that light had both particle-like and wave-like properties–predating Einstein and other quantum physicists by nine years. With his high-vacuum tubes, or cathode ray tubes, Tesla shot cathode rays at different metals noting the differences in reflection the streams made upon the metals. Initially, he noticed the streams, being shot at the metals like bullets, broke into smaller particles, and or, vibrations of extremely high frequencies (technically, this would be the first demonstration of breaking electrons into subatomic particles), but upon further investigation he proved that they were indeed just waves. This lead to his conclusion that light is merely a transverse, longitudinal disturbance in the ether, involving alternate compressions and rarefactions, or in his words, “light can be nothing else than a sound wave in the ether.” Tesla would go on to file a patent based off these experiments titled, “Apparatus of the Utilization of Radiant Energy,” published in 1901.

Tesla’s conclusions would obviously get ignored by main stream science, but it seems that today’s technology, which seemingly works off Albert Einstein’s theories, are in reality, working off Tesla’s.

Ahead of his time!

The History of the Photoelectric Effect In 1905, Albert…

The History of the Photoelectric Effect

In 1905, Albert Einstein gained world fame for supposedly being the first to propose that light has a nature of both a wave and a particle. This theory lead to the development of “photons,” or photo-electrons, which describe light with a wave-particle duality. In 1921, Einstein was awarded the Nobel Prize in Physics for his theoretical theories and his explanation of the photoelectric effect. A theory that even today is still accepts as a certainty.

In 1887, Heinrich Hertz discovered the photoelectric effect, but it is a fact that Nikola Tesla was the first to explain the effect. Einstein was a very intelligent scientist, but he lacked wisdom. Unlike Einstein, Nikola Tesla wasn’t just a theoretical physicist who based all his theories off other scientists’ work (like James Clerk Maxwell and Heinrich Hertz), but was an experimental physicist as well who based all his theories off experimental research and data from which he himself conducted and recorded.

In 1896, with experiments with radiant energy and high-vacuum tubes, Nikola Tesla was the first to publicize that light had both particle-like and wave-like properties–predating Einstein and other quantum physicists by nine years. With his high-vacuum tubes, or cathode ray tubes, Tesla shot cathode rays at different metals noting the differences in reflection the streams made upon the metals. Initially, he noticed the streams, being shot at the metals like bullets, broke into smaller particles, and or, waves of extremely high frequencies (technically, this would be the first demonstration of breaking electrons into subatomic particles), but upon further investigation he proved that they were indeed just waves. This lead to his conclusion that light is merely a longitudinal disturbance in the ether, involving alternate compressions and rarefactions, or in his words, “light can be nothing else than a sound wave in the ether.” Tesla would go on to file a patent based off these experiments titled, “Apparatus of the Utilization of Radiant Energy,” published in 1901.

Tesla’s conclusions would obviously get ignored by main stream science, but it seems that today’s technology, which seemingly works off Albert Einstein’s theories, are in reality, working off Tesla’s.

drnikolatesla: Nikola Tesla was asked to select his choice of…

drnikolatesla:

Nikola Tesla was asked to select his choice of the greatest modern and future wonders, but the electrical wizard refused to accept the popular notion of what is wonderful. His reply led to an onslaught on scientists who have abandoned “cause and effect” and who take the position that there are accidents in nature and that anything might happen.

“To the popular mind, any manifestation resulting from any cause will appear wonderful if there is no perceptible connection between cause and effect. For instance, through the means of wireless telephone speech is carried to opposite points of the globe. To the vast majority this must appear miraculous. To the expert who is familiar with the apparatus and sees it in his mind’s eye the result is obvious. It is exactly as though visible means existed to which the impetus is transmitted.

“As I revolve in my mind the thoughts in answer to your question I find the most wonderful thing is the utter aberration of the scientific mind during the last twenty five years. In that time the relativity theory [Albert Einstein], the electron theory [J. J. Thomson], the quantum theory [Max Planck, Niels Bohr, Werner Heisenberg, Erwin Schrödinger, Arthur Compton, Paul Dirac, Wolfgang Pauli], the theory of radioactivity [Marie Curie] and others have been worked out and developed to an amazing degree. And yet probably not less than 90 per cent of what is thought today to be demonstrable scientific truth is nothing but unrealizable dreams.

“What is ‘thought’ in relativity, for example, is not science, but some kind of metaphysics based on abstract mathematical principles and conceptions which will be forever incomprehensible to beings like ourselves whose whole knowledge is derived from a three-dimensional world.

“The idea of the atom being formed of electrons and protons which go whirling round each other like a miniature sun and planets is an invention of the imagination, and has no relation to the real nature of matter.

“Virtually all progress has been achieved by physicists, discoverers and inventors; in short, devotees of the science which Newton and his disciples have been and are propounding.

“Personally, it is only efforts in this direction which have claimed my energies. Similar remarks might be made with respect to other modern developments of thought. Take, for example, the electron theory. Perhaps no other has given rise to so many erroneous ideas and chimerical hopes. Everybody speaks of electrons as something entirely definite and real. Still, the fact is that nobody has isolated it and nobody has measured its charge. Nor does anybody know what it really is.

“In order to explain the observed phenomena, atomic structures have been imagined [Quantum Mechanics], none of which can possibly exist. But the worst illusion to which modern thought has led is the idea of ‘indeterminacy’ [ex. Uncertainty Principle: W. Heisenberg, E. Schrödinger]. To make this clear, I may remark that heretofore we have in positive science assumed that every effect is the result of a preceding cause.

“As far as I am concerned, I can say that after years of concentrated thought and investigation there is no truth in nature of which I would be more fully convinced. But the new theories of ‘indeterminacy’ state this is not true, that an effect cannot be predicted in advance.

“If two planets collide at certain time and certain place, this is to the student of positive science an inevitable result of preceding interactions between the bodies; and if our knowledge would be adequate, we would be able to foretell the event accurately.

“But in the spirit of the new theories this would simply be an accident. ‘Indeterminacy’ introduces into the world of inert matter a principle which might virtually be compared with the universal illusion of free will.

“Of course, there is no such thing. In years of experimenting I have found that every thought I conceive, every act I perform, is the result of external impressions on my senses.

“It is only because the vast majority of human being are not observant sufficiently that they live in the illusion of perfect choice and freedom in their thoughts and actions. And if this holds true even in the most complex and involved manifestations of human life, it holds true with the same force in all the world of matter.”

–Nikola Tesla

“Great Scientific Discovery Impends.“ The Sunday Star, Washington D.C., May 17, 1931.