Want to swap my Xbox 360 for a PS3, anyone?!
Want to swap my Xbox 360 for a PS3, anyone?!
Nikola Tesla was a Serbian inventor, electrical engineer, mechanical engineer, and futurist. Today (July 10) marks the 158th anniversary of his birth. Though Tesla holds 112 lifetime U.S. patents, and is most famous for helping to develop the modern alternating current (AC) system of electric power, the inventor died penniless and in relative obscurity on Jan. 7, 1943, at age 86.
Tesla’s outsized and quirky personality, along with some of his more far-out ideas — such as his experiments to develop a particle gun, or death ray — earned him a reputation that fell somewhere between “creative genius” and “mad scientist.” While some regard him as the true father of electricity, others have come to remember Tesla more for his peculiarities than his accomplishments.
But, let’s take a look at what he has actually given to the world. For better or worse, with credit or without, he changed the face of the planet in ways that perhaps no man ever has.
- Alternating Current: This is where it all began, and what ultimately caused such a stir at the 1893 World’s Expo in Chicago. A war was leveled ever-after between the vision of Edison and the vision of Tesla for how electricity would be produced and distributed. The division can be summarized as one of cost and safety: the DC current that Edison (backed by General Electric) had been working on was costly over long distances, and produced dangerous sparking from the required converter (called a commutator). Regardless, Edison and his backers utilized the general “dangers” of electric current to instill fear in Tesla’s alternative: Alternating Current. As proof, Edison sometimes electrocuted animals at demonstrations. Consequently, Edison gave the world the electric chair, while simultaneously maligning Tesla’s attempt to offer safety at a lower cost. Tesla responded by demonstrating that AC was perfectly safe by famously shooting current through his own body to produce light. This Edison-Tesla feud in 1893 was the culmination of over a decade of shady business deals, stolen ideas, and patent suppression that Edison and his moneyed interests wielded over Tesla’s inventions. Yet, despite it all, it is Tesla’s system that provides power generation and distribution to North America in our modern era.
- Light: Of course he didn’t invent light itself, but he did invent how light can be harnessed and distributed. Tesla developed and used fluorescent bulbs in his lab some 40 years before industry “invented” them. At the World’s Fair, he took glass tubes and bent them into famous scientists’ names, in effect creating the first neon signs. However, it is his Tesla Coil that might be the most impressive, and controversial. The Tesla Coil is certainly something that big industry would have liked to suppress: the concept that the Earth itself is a magnet that can generate electricity (electromagnetism) utilizing frequencies as a transmitter. All that is needed on the other end is the receiver - much like a radio.
- X-rays: Electromagnetic and ionizing radiation was heavily researched in the late 1800s, but Tesla researched the entire gamut. Everything from a precursor to Kirlian photography, which has the ability to document life force, to what we now use in medical diagnostics, this was a transformative invention of which Tesla played a central role. X-rays, like so many of Tesla’s contributions, stemmed from his belief that everything we need to understand the universe is virtually around us at all times, but we need to use our minds to develop real-world devices to augment our innate perception of existence.
- Radio: Guglielmo Marconi was initially credited, and most believe him to be the inventor of radio to this day. However, the Supreme Court overturned Marconi’s patent in 1943, when it was proven that Tesla invented the radio years previous to Marconi. Radio signals are just another frequency that needs a transmitter and receiver, which Tesla also demonstrated in 1893 during a presentation before The National Electric Light Association. In 1897 Tesla applied for two patents: US 645576, and US 649621. In 1904, however, The U.S. Patent Office reversed its decision, awarding Marconi a patent for the invention of radio, possibly influenced by Marconi’s financial backers in the States, who included Thomas Edison and Andrew Carnegie. This also allowed the U.S. government (among others) to avoid having to pay the royalties that were being claimed by Tesla.
- Remote Control: This invention was a natural outcropping of radio. Patent No. 613809 was the first remote controlled model boat, demonstrated in 1898. Utilizing several large batteries; radio signals controlled switches, which then energized the boat’s propeller, rudder, and scaled-down running lights. While this exact technology was not widely used for some time, we now can see the power that was appropriated by the military in its pursuit of remote controlled war. Radio controlled tanks were introduced by the Germans in WWII, and developments in this realm have since slid quickly away from the direction of human freedom.
- Electric Motor: Tesla’s invention of the electric motor has finally been popularized by a car brandishing his name. While the technical specifications are beyond the scope of this summary, suffice to say that Tesla’s invention of a motor with rotating magnetic fields could have freed mankind much sooner from the stranglehold of Big Oil. However, his invention in 1930 succumbed to the economic crisis and the world war that followed. Nevertheless, this invention has fundamentally changed the landscape of what we now take for granted: industrial fans, household applicances, water pumps, machine tools, power tools, disk drives, electric wristwatches and compressors.
- Robotics: Tesla’s overly enhanced scientific mind led him to the idea that all living beings are merely driven by external impulses. He stated: “I have by every thought and act of mine, demonstrated, and does so daily, to my absolute satisfaction that I am an automaton endowed with power of movement, which merely responds to external stimuli”. Thus, the concept of the robot was born. However, an element of the human remained present, as Tesla asserted that these human replicas should have limitations - namely growth and propagation. Nevertheless, Tesla unabashedly embraced all of what intelligence could produce. His visions for a future filled with intelligent cars, robotic human companions, and the use of sensors, and autonomous systems are detailed in a must-read entry in the Serbian Journal of Electrical Engineering, 2006 (PDF).
- Laser: Tesla’s invention of the laser may be one of the best examples of the good and evil bound up together within the mind of man. Lasers have transformed surgical applications in an undeniably beneficial way, and they have given rise to much of our current digital media. However, with this leap in innovation we have also crossed into the land of science fiction. From Reagan’s “Star Wars” laser defense system to today’s Orwellian “non-lethal” weapons’ arsenal, which includes laser rifles and directed energy “death rays”, there is great potential for development in both directions.
- and 10. Wireless Communications and Limitless Free Energy: These two are inextricably linked, as they were the last straw for the power elite - what good is energy if it can’t be metered and controlled? Free? Never. J.P. Morgan backed Tesla with $150,000 to build a tower that would use the natural frequencies of our universe to transmit data, including a wide range of information communicated through images, voice messages, and text. This represented the world’s first wireless communications, but it also meant that aside from the cost of the tower itself, the universe was filled with free energy that could be utilized to form a world wide web connecting all people in all places, as well as allow people to harness the free energy around them. Essentially, the 0’s and 1’s of the universe are embedded in the fabric of existence for each of us to access as needed. Nikola Tesla was dedicated to empowering the individual to receive and transmit this data virtually free of charge. But we know the ending to that story… until now?
The Beauty of Math in Science - Lissajous Curve
Lissajous curve, also known as Lissajous figure or Bowditch curve, is the graph of a system of parametric equations: x = A.sin(a.t + δ) and y = B.cos(bt)
The appearance of the figure is highly sensitive to the ratio a/b - Image 3 (3/2, 3/4 and 5/4). For a ratio of 1, the figure is an ellipse, with special cases including circles (A = B, δ = π/2 radians) and lines (δ = 0). Another simple Lissajous figure is the parabola (a/b = 2, δ = π/4). Other ratios produce more complicated curves, which are closed only if a/b is rational. The visual form of these curves is often suggestive of a three-dimensional knot, and indeed many kinds of knots, including those known as Lissajous knots, project to the plane as Lissajous figures.
Visually, the ratio a/b determines the number of “lobes” of the figure. For example, a ratio of 3/1 or 1/3 produces a figure with three major lobes (see image). The ratio A/B determines the relative width-to-height ratio of the curve. For example, a ratio of 2/1 produces a figure that is twice as wide as it is high. Finally, the value of δ determines the apparent “rotation” angle of the figure, viewed as if it were actually a three-dimensional curve. For example, δ=0 produces x and y components that are exactly in phase, so the resulting figure appears as an apparent three-dimensional figure viewed from straight on (0°). In contrast, any non-zero δ produces a figure that appears to be rotated, either as a left/right or an up/down rotation (depending on the ratio a/b).
See more at source: Lissajous curve.
#photooftheday #instagood #igers #picoftheday #hot #bored (at Royal Breeze, Al Hamra Village)
When Einstein was traveling to lecture in Spain,
He questioned a conductor again and again:
“It may be a while,”
He asked with a smile,
“But when does Madrid reach this train?”
(via Futility Closet)
I was very well educated. My dad paid me to go to a very good school but, you know, when my parents divorced, we didn’t have any money for a while. My birthday present was my school uniform and my pencil cases. I think that’s one of the reason why my education means so much to me. It’s because my dad really couldn’t afford to send me to this school. At the time we just didn’t have the money. And so I worked hard every single day that I was at that school to make him proud of me and for him to know that I appreciated it. And I do, and I still do.