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By — NewsWeekRTR3ERWG

Despite his millions, the world of Moscow property development left Nikolay Gurianov “really bored.” Two motorbike crashes later, he reckoned it was time to move on, find a new business and swap two wheels for four.

He asked a marketeer: “What is the most interesting business that isn’t property, oil, armaments, diamonds, drugs or slavery?” And so began his career in IT—and a switch to Aston Martins.

In 2002, he set up Braintree, a technology outfit that helped Russian firms “optimise databases.” But databases too failed to ignite Gurianov. Drifting, he lit on artificial intelligence (AI). At last, here was a challenge fit for both intellect and wallet. Read more

By Tom Simonite — MIT Technology ReviewSocial-security and credit-card numbers frequently leak or are stolen from corporate networks—and surface on the black market. Adam Ghetti, founder of Ionic Security, says he has invented technology that could largely end the problem. His software keeps corporate data such as e-mails and documents encrypted at all times, except for when someone views it on an authorized computer or mobile device.

Workers at a company using Ghetti’s system can create and exchange e-mails or documents as normal. But Ionic’s software invisibly encrypts what they type on the fly. If someone tries to load a stolen document on a computer outside the company’s network, they would see only the encrypted data—a jumbled string of letters. “A network breach no longer has to mean a data breach,” says Ghetti.

Read more

By Tom Simonite — MIT Technology ReviewA Stanford professor claims to have invented a Bitcoin-like system that can handle payments faster and with more security.

The total value of the digital currency Bitcoin is now approximately $3.4 billion, and many companies and investors are working to prove that the technology can make financial services cheaper and more useful.

But Stanford professor David Mazières thinks he has a faster, more flexible, and more secure alternative. If Mazières is correct, his technology could make digital payments and other transactions cheaper, safer, and easier—particularly across borders. He released the design for his system in a white paper last Wednesday. Read more

Until 2006 our Solar System consisted essentially of a star, planets, moons, and very much smaller bodies known as asteroids and comets. In 2006 the International Astronomical Union’s (IAU) Division III Working Committee addressed scientific issues and the Planet Definition Committee address cultural and social issues with regard to planet classifications. They introduced the “pluton” for bodies similar to planets but much smaller.

The IAU set down three rules to differentiate between planets and dwarf planets. First, the object must be in orbit around a star, while not being itself a star. Second, the object must be large enough (or more technically correct, massive enough) for its own gravity to pull it into a nearly spherical shape. The shape of objects with mass above 5×1020 kg and diameter greater than 800 km would normally be determined by self-gravity, but all borderline cases would have to be established by observation.

Third, plutons or dwarf planets, are distinguished from classical planets in that they reside in orbits around the Sun that take longer than 200 years to complete (i.e. they orbit beyond Neptune). Plutons typically have orbits with a large orbital inclination and a large eccentricity (noncircular orbits). A planet should dominate its zone, either gravitationally, or in its size distribution. That is, the definition of “planet” should also include the requirement that it has cleared its orbital zone. Of course this third requirement automatically implies the second. Thus, one notes that planets and plutons are differentiated by the third requirement.

As we are soon to become a space faring civilization, we should rethink these cultural and social issues, differently, by subtraction or addition. By subtraction, if one breaks the other requirements? Comets and asteroids break the second requirement that the object must be large enough. Breaking the first requirement, which the IAU chose not address at the time, would have planet sized bodies not orbiting a star. From a socio-cultural perspective, one could suggest that these be named “darktons” (from dark + plutons). “Dark” because without orbiting a star, these objects would not be easily visible; “tons” because in deep space, without much matter, these bodies could not meet the third requirement of being able to dominate its zone.

Taking this socio-cultural exploration a step further, by addition, a fourth requirement is that of life sustaining planets. The scientific evidence suggest that life sustaining bodies would be planet-sized to facilitate a stable atmosphere. Thus, a life sustaining planet would be named “zoeton” from the Greek zoe for life. For example Earth is a zoeton while Mars may have been.

Again by addition, one could define, from the Latin aurum for gold, “auton”, as a heavenly body, comets, asteroids, plutons and planets, whose primary value is that of mineral or mining interest. Therefore, Jupiter is not a zoeton, but could be an auton if one extracts hydrogen or helium from this planet. Another auton is 55 Cancri e, a planet 40 light years away, for mining diamonds with an estimated worth of $26.9x1030. The Earth is both a zoeton and an auton, as it both, sustains life and has substantial mining interests, respectively. Not all plutons or planets could be autons. For example Pluto would be too cold and frozen for mining to be economical, and therefore, frozen darktons would most likely not be autons.

At that time the IAU also did not address the upper limit for a planet’s mass or size. Not restricting ourselves to planetary science would widen our socio-cultural exploration. A social consideration would be the maximum gravitational pull that a human civilization could survive, sustain and flourish in. For example, for discussion sake, a gravitational pull greater the 2x Earth’s or 2g, could be considered the upper limit. Therefore, planets with larger gravitational pulls than 2g would be named “kytons” from the Antikythera mechanical computer as only machines could survive and sustain such harsh conditions over long periods of time. Jupiter would be an example of such a kyton.

Are there any bodies between the gaseous planet Jupiter and brown dwarfs? Yes, they have been named Y-dwarfs. NASA found one with a surface temperature of only 80 degrees Fahrenheit, just below that of a human. It is possible these Y-dwarfs could be kytons and autons as a relatively safe (compared to stars) source of hydrogen.

Taking a different turn, to complete the space faring vocabulary, one can redefine transportation by their order of magnitudes. Atmospheric transportation, whether for combustion intake or winged flight can be termed, “atmosmax” from “atmosphere”, and Greek “amaxi” for car or vehicle. Any vehicle that is bound by the distances of the solar system but does not require an atmosphere would be a “solarmax”. Any vehicle that is capable of interstellar travel would be a “starship”. And one capable of intergalactic travel would be a “galactica”.

We now have socio-cultural handles to be a space faring civilization. A vocabulary that facilitates a common understanding and usage. Exploration implies discovery. Discovery means new ideas to tackle new environments, new situations and new rules. This can only lead to positive outcomes. Positive outcomes means new wealth, new investments and new jobs. Let’s go forth and add to these cultural handles.

Ben Solomon is a Committee Member of the Nuclear and Future Flight Propulsion Technical Committee, American Institute of Aeronautics & Astronautics (AIAA), and author of An Introduction to Gravity Modification and Super Physics for Super Technologies: Replacing Bohr, Heisenberg, Schrödinger & Einstein (Kindle Version)

Article: Harnessing “Black Holes”: The Large Hadron Collider – Ultimate Weapon of Mass Destruction

Posted in astronomy, big data, computing, cosmology, energy, engineering, environmental, ethics, existential risks, futurism, general relativity, governance, government, gravity, information science, innovation, internet, journalism, law, life extension, media & arts, military, nuclear energy, nuclear weapons, open source, particle physics, philosophy, physics, policy, posthumanism, quantum physics, science, security, singularity, space, space travel, supercomputing, sustainability, time travel, transhumanism, transparency, treatiesTagged , , , , , , , , , , , , | Leave a Comment on Article: Harnessing “Black Holes”: The Large Hadron Collider – Ultimate Weapon of Mass Destruction

Harnessing “Black Holes”: The Large Hadron Collider – Ultimate Weapon of Mass Destruction

Why the LHC must be shut down

CERN-Critics: LHC restart is a sad day for science and humanity!

Posted in astronomy, big data, complex systems, computing, cosmology, energy, engineering, ethics, existential risks, futurism, general relativity, governance, government, gravity, hardware, information science, innovation, internet, journalism, law, life extension, media & arts, military, nuclear energy, nuclear weapons, particle physics, philosophy, physics, policy, quantum physics, science, security, singularity, space, space travel, supercomputing, sustainability, time travel, transhumanism, transparency, treatiesTagged , , , , , , , , | 1 Comment on CERN-Critics: LHC restart is a sad day for science and humanity!

PRESS RELEASE “LHC-KRITIK”/”LHC-CRITIQUE” www.lhc-concern.info
CERN-Critics: LHC restart is a sad day for science and humanity!
These days, CERN has restarted the world’s biggest particle collider, the so-called “Big Bang Machine” LHC at CERN. After a hundreds of Million Euros upgrade of the world’s biggest machine, CERN plans to smash particles at double the energies of before. This poses, one would hope, certain eventually small (?), but fundamentally unpredictable catastrophic risks to planet Earth.
Basically the same group of critics, including Professors and Doctors, that had previously filed a law suit against CERN in the US and Europe, still opposes the restart for basically the same reasons. Dangers of: (“Micro”-)Black Holes, Strangelets, Vacuum Bubbles, etc., etc. are of course and maybe will forever be — still in discussion. No specific improvements concerning the safety assessment of the LHC have been conducted by CERN or anybody meanwhile. There is still no proper and really independent risk assessment (the ‘LSAG-report’ has been done by CERN itself) — and the science of risk research is still not really involved in the issue. This is a scientific and political scandal and that’s why the restart is a sad day for science and humanity.
The scientific network “LHC-Critique” speaks for a stop of any public sponsorship of gigantomanic particle colliders.
Just to demonstrate how speculative this research is: Even CERN has to admit, that the so called “Higgs Boson” was discovered — only “probably”. Very probably, mankind will never find any use for the “Higgs Boson”. Here we are not talking about the use of collider technology in medical concerns. It could be a minor, but very improbable advantage for mankind to comprehend the Big Bang one day. But it would surely be fatal – how the Atomic Age has already demonstrated — to know how to handle this or other extreme phenomena in the universe.
Within the next Billions of years, mankind would have enough problems without CERN.
Sources:
- A new paper by our partner “Heavy Ion Alert” will be published soon: http://www.heavyionalert.org/
- Background documents provided by our partner “LHC Safety Review”: http://www.lhcsafetyreview.org/

- Press release by our partner ”Risk Evaluation Forum” emphasizing on renewed particle collider risk: http://www.risk-evaluation-forum.org/newsbg.pdf

- Study concluding that “Mini Black Holes” could be created at planned LHC energies: http://phys.org/news/2015-03-mini-black-holes-lhc-parallel.html

- New paper by Dr. Thomas B. Kerwick on lacking safety argument by CERN: http://vixra.org/abs/1503.0066

- More info at the LHC-Kritik/LHC-Critique website: www.LHC-concern.info
Best regards:
LHC-Kritik/LHC-Critique

— Wiredhttp://www.wired.com/wp-content/uploads/2015/04/hone-582x340.jpgJaanus Kase isn’t sure we should teach every kid to code.

Wait, don’t grab your pitchfork just yet. He thinks it’s a perfectly noble idea, just that it ignores a basic fact: Programming as it exists today is tedious and a highly specialized skill—one that, frankly, not everyone is well-suited to. “Saying that everybody is a programmer, everybody must code, it’s dangerous,” he says. “It trivializes the art of programming. And it is an art—a craft.”

Rather than teach everyone to code, maybe it makes more sense to build tools that let some people side-step programming altogether? Read more

By — SingularityHubhttp://cdn.singularityhub.com/wp-content/uploads/2015/04/Kotler-Tomorrowland-1000x400.jpg

For the past 25 years, my beat as a journalist has been covering those moments in time when science fiction became science fact. As a result, and on a good number of occasions—like when the first artificial vision implant was turned on or when the first private spaceship was launched—I was lucky enough to be in the room when history happened.

These moments are also the subject of my next book: Tomorrowland: Our Journey From Science Fiction to Science Fact, which hits stores in early May. As the title suggests, this book is an investigation into those transformational sci-fi to sci-fact moments and—more specifically—the incredibly disruptive impact they have on culture. Read more

Lawrence Berkeley National LaboratoryMajor advance in artificial photosynthesis poses win/win for the environment

A potentially game-changing breakthrough in artificial photosynthesis has been achieved with the development of a system that can capture carbon dioxide emissions before they are vented into the atmosphere and then, powered by solar energy, convert that carbon dioxide into valuable chemical products, including biodegradable plastics, pharmaceutical drugs and even liquid fuels.

Scientists with the U.S. Department of Energy (DOE)‘s Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California (UC) Berkeley have created a hybrid system of semiconducting nanowires and bacteria that mimics the natural photosynthetic process by which plants use the energy in sunlight to synthesize carbohydrates from and water. However, this new artificial photosynthetic system synthesizes the combination of carbon dioxide and water into acetate, the most common building block today for biosynthesis.

“We believe our system is a revolutionary leap forward in the field of ,” says Peidong Yang, a chemist with Berkeley Lab’s Materials Sciences Division and one of the leaders of this study. “Our system has the potential to fundamentally change the chemical and oil industry in that we can produce chemicals and fuels in a totally renewable way, rather than extracting them from deep below the ground. Read more

By Tasha Keeney, Analyst: Industrial Innovation — Seeking Alpha

In December of last year, Amazon (NASDAQ:AMZN) announced Prime Air, the company’s plan to deliver future packages by drone (“UAV”). While the media and others mocked this announcement, UAV delivery is likely to disrupt traditional package delivery significantly. If the FAA gives Amazon clearance for commercial rollout of its drone delivery service, the price that a consumer would pay for the delivery of a five-pound package could be as low as $1.1 Just as impressive, delivery times could drop below thirty minutes. As shown below, FedEx Corp. (NYSE:FDX) and United Parcel Service (NYSE:UPS) cost 8–13 times more for much longer delivery times for a small package.2http://static.cdn-seekingalpha.com/uploads/2015/4/17/saupload_AmazonDroneComparison2-e1429221389620_thumb1.pngRead more