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Jan 21, 2012

My Story Aimed to Make a Planet Happy

Posted by in categories: existential risks, particle physics

I am a “specialist in non-specialization”, in the words of my late Austrian mentor Konrad Lorenz, and an “interdisciplinary hybrid” in those of my late American mentor Bob Rosen. IMy work in chaos theory is a little bit well known, in that I discovered a so-called “attractor” or “reproducible dynamic phenomenon” familiar in everyday experience (a hoarse voice and an idling motorcycle’s noise being examples). My subsequent discovery of “hyperchaos” was soon used as a diagnostic tool in wards for the newborn whose cries turn from chaos to hyperchaos in case of a crisis, as H. Herzel found out. My “brain equation” is also getting some recognition lately. My “smile theory” is my oldest but hardest to understand theory (though children typically have no difficulty with it!).

My recent “Telemach theorem” – named after Ulysses’ son Telemachus – is a much more frightening conceptual structure, however. It suggests that continuing escalation of the energy of operation of the Large Hadron Collider outside Geneva, Switzerland, indeed has the potential of forming dangerous mini Black Holes which could consume the Earth.

A proven implication of known physical laws – a theorem – is true until a counterargument is found that topples it. The name Telemach has to do with the youth of an ancient Greek myth who recognized a beggar as the long lost father he had believed was dead. In my title the acronym stands for Time, Length, Mass and Charge (T, L, M, Ch), four entities that can be measured in everyday life by means of simple devices — clocks, meter sticks, scales and volt meters.

You probably already know that there exists no “Ur-Second” in physics (because of Einstein’s work); but an “Ur-Meter” and an “Ur-Kilogram” and a “Universal Unit Charge” are believed to exist and are well known. The Ur-meter and the Ur-kilogram were actually quite costly and difficult to arrive at. The struggle took scientists and engineers many decades in furthering the science of measurement (Metrology) in this regard.

Continue reading “My Story Aimed to Make a Planet Happy” »

Jan 20, 2012

Old UNIX/IBM control systems: Potential time bombs in Industry

Posted by in categories: cybercrime/malcode, defense, events, existential risks, military, nuclear energy

It may be a point of little attention, as the millennium bug came with a lot of hoo-ha and went out with a whimper, but the impact it had on business was small because of all the hoo-ha, not in spite of it. And so it is with some concern that I consider operating system rollover dates as a potential hazard by software malfunction at major industrial operations such as nuclear power stations and warhead controls, which in worst case scenario, could of course have disastrous implications due to out-dated control systems.

The main dates of interest are 19 January 2038 by when all 32-bit Unix operating systems need to have been replaced by at least their 64-bit equivalents, and 17 Sept 2042 when IBM mainframes that use a 64-bit count need to be phased out.

Scare mongering? Perhaps not. While all modern facilities will have the superior time representation, I question if facilities built in the 70s and 80s, in particular those behind the old iron curtain were or ever will be upgraded. This raises a concern that for example the old soviet nuclear arsenal could become a major global threat within a few decades by malfunction if not decommissioned or control systems upgraded. It is one thing for a bank statement to print the date wrong on your latest bill due to millennium bug type issues, but if automated fault tolerance procedures have coding such as ‘if(time1 > time2+N) then initiate counter-measures’ then that is quite a different matter entirely.

I believe this is a topic which warrants higher profile lest it be forgot. Fortunately the global community has a few decades on its hands to handle this particular issue, though all it takes is just one un-cooperative facility to take such a risk rather than perform the upgrades necessary to ensure no such ‘meltdowns’ occur. Tick-tock, tick-tock, tick-tock…

Jan 18, 2012

Attempto: Let Me Give It a Try

Posted by in categories: existential risks, particle physics

I was asked by a journalist friend to present my “revolutionary” results in a way that every lay person can understand to thereby enable the world’s media – if they so wish – to distribute this information in simpler form.

I first have to say who I am, background-wise. I am a “specialist for non-specialization” in the words of my late Austrian friend Konrad Lorenz, and an “interdisciplinary hybrid” in those of my late American friend Bob Rosen. In other words: I have “no character” (only a nose). A little bit known is my work in chaos theory where I discovered a so-called attractor or “reproducible dynamic phenomenon” which everyone knows from experience (a hoarse voice and an idling motorcycle’s noise being examples). Crying babies can produce “hyperchaos” which got turned into a diagnostic tool in wards for the newborn (by H. Herzel). My “brain equation” is getting some recognition lately. A “smile theory” is my oldest but hardest to understand theory (only children have no difficulty). And my recent “Telemach theorem” – named after Ulysses’ son Telemachus – forms the connection to our frightening topic.

A proven finding – a theorem – is true until a counterargument is found that topples it. The mentioned name has to do with an ancient youth who recognized his long believed-dead father cloaked in a beggar’s garment. At the same time the acronym stands for Time, Length, Mass and Charge (T, L, M, Ch) – four entities that can be measured in everyday life by means of simple devices called clocks and meter sticks and scales and volt meters. You probably already know that there exists no “Ur-Second” in physics (because of Einstein’s work); but an “Ur-Meter” and an “Ur-Kilogram” and a “Universal Unit Charge” are believed to exist and well known to date. The Ur-meter and the Ur-kilogram are actually quite expensive and were hard to arrive at in empirical struggles that took scientists and engineers many decades in a science of its own called Metrology (the science of measurement). Therefore it is of some interest perhaps that young Telemach summarily says that three “Urs” do not exist. The Ur-meter, the Ur-kilogram, the Ur-charge all three are as non-existent as the Ur-Second, dethroned 105 years ago, and the “Ur-Pound,” dethroned almost 350 years ago. The latter was proven to be nonexistent by Isaac Newton, the Ur-Second by Albert Einstein as mentioned.

There must be a cry of excitement owing to the newly eliminated three “Urs” – you might expect. The reality is silence. This is surprising since popular opinion holds that new findings are automatically embraced because new machinery can be built and new money be made. But there are always the old manufacturers as it were. Something radically unexpected is never accepted without delay.

Continue reading “Attempto: Let Me Give It a Try” »

Jan 17, 2012

Artifacts in the Solar System

Posted by in categories: philosophy, physics, space

One way that astronomers and astrobiologists search for life in the galaxy is observation of rocky planets orbiting other stars. Such planets may contain an atmosphere, liquid water, and other ingredients that are required for biological life on Earth. Once a number of these potentially inhabited planets have been identified, the next logical step in exploration is to send remote exploratory probes to make direct observations of these planets. Present-day study of other planetary systems is so far limited to remote observation with telescopes, but future plans for exploration include the design and deployment of small robotic exploratory spacecraft toward other star systems.

If intelligent, technological extraterrestrial life exists in the galaxy, then it is conceivable that such a civilization might embark on a similar exploration strategy. Extraterrestrial intelligent (ETI) civilizations may choose to pursue astronomy and search for planets orbiting other star systems and may also choose to follow-up on some of these targets by deploying their own remote exploratory spacecraft. If nearby ETI have observed the Solar System and decided to pursue further exploration, then evidence of ETI technology may be present in the form of such exploratory probes. We refer to this ETI technology as “non-terrestrial artifacts”, in part to distinguish these plausible exploratory spacecraft from the flying saucers of science fiction.

In a recent paper titled “On the likelihood of non-terrestrial artifacts in the Solar System”, published in the journal Acta Astronautica (and available on arXiv.org as a preprint), Jacob Haqq-Misra and Ravi Kopparapu discuss the likelihood that human exploration of the Solar System would have uncovered any non-terrestrial artifacts. Exploratory probes destined for another star system are likely to be relatively small (less than ten meters in diameter), so any non-terrestrial artifacts present in the Solar System have probably remained undetected. The surface and atmosphere of Earth are probably the most comprehensively searched volumes in the Solar System and can probably be considered absent of non-terrestrial artifacts. Likewise, the surface of the moon and portions of Mars have been searched at a sufficient resolution to have uncovered any non-terrestrial artifacts that could have been present. However, the deep oceans of Earth and the subsurface of the Moon are largely unexplored territory, while regions such as the asteroid belt, the Kuiper belt, and stable orbits around other Solar System planets could also contain non-terrestrial artifacts that have so far escaped human observation. Because of this plenitude of nearby unexplored territory, it would be premature to conclude that the Solar System is absent of non-terrestrial artifacts.

Although the chances of finding non-terrestrial artifacts might be low, the discovery of ETI technology, even if broken and non-functioning, would provide evidence that ETI exist elsewhere in the galaxy and have a profound impact on humankind. This is not to suggest that the search for non-terrestrial technology should be given priority over other astronomical missions; however, as human exploration into the Solar System continues, we may as well keep our eyes open for ETI technology, just in case.

Jan 16, 2012

Post Einsteinian Language?

Posted by in categories: biological, complex systems, cosmology, economics, education, ethics, evolution, futurism, habitats, homo sapiens, human trajectories, humor, media & arts, philosophy, policy, rants, scientific freedom, sustainability, transparency

Twenty years ago, way back in the primordial soup of the early Network in an out of the way electromagnetic watering hole called USENET, this correspondent entered the previous millennium’s virtual nexus of survival-of-the-weirdest via an accelerated learning process calculated to evolve a cybernetic avatar from the Corpus Digitalis. Now, as columnist, sci-fi writer and independent filmmaker, [Cognition Factor — 2009], with Terence Mckenna, I have filmed rocket launches and solar eclipses for South African Astronomical Observatories, and produced educational programs for South African Large Telescope (SALT). Latest efforts include videography for the International Astronautical Congress in Cape Town October 2011, and a completed, soon-to-be-released, autobiography draft-titled “Journey to Everywhere”.

Cognition Factor attempts to be the world’s first ‘smart movie’, digitally orchestrated for the fusion of Left and Right Cerebral Hemispheres in order to decode civilization into an articulate verbal and visual language structured from sequential logical hypothesis based upon the following ‘Big Five’ questions,

1.) Evolution Or Extinction?
2.) What Is Consciousness?
3.) Is God A Myth?
4.) Fusion Of Science & Spirit?
5.) What Happens When You Die?

Even if you believe that imagination is more important than knowledge, you’ll need a full deck to solve the ‘Arab Spring’ epidemic, which may be a logical step in the ‘Global Equalisation Process as more and more of our Planet’s Alumni fling their hats in the air and emit primal screams approximating;
“we don’t need to accumulate (so much) wealth anymore”, in a language comprising of ‘post Einsteinian’ mathematics…

Continue reading “Post Einsteinian Language?” »

Jan 16, 2012

Electro-magnetic Vortex phenomena & Industrial Implications…

Posted by in categories: engineering, existential risks, fun, humor, physics

I wouldn’t have paid much attention to the following topic except for the article appearing in an otherwise credible international news agency (MINA).

http://macedoniaonline.eu/content/view/17115/56/
http://wiki.answers.com/Q/What_is_the_gulf_of_aden_vortex

Whilst electro-magnetic disturbances occur naturally — all the time, the suggestion that one in particular has allegedly arose through industrial practices (ionospheric research, wormhole research(??)) lends to curiosity. If anyone on one of the advisory boards for the various science disciplines has a strong knowledge of electro-magnetic vortex type features that can occur in nature, please explain the phenomena, whether there are any implications of these and whether industry of any sort (in particular directed ionospheric heating) can cause such anomalies to appear from time to time.

I understand that there can be certain fluctuations and weakening in build up to magnetic pole reversals, for example (though please correct me if I’m wrong here). That besides one may enjoy the alleged reaction of certain defense forces (surely spoof) which is at least good satire on how leaders of men can often fear the unknown.

Jan 15, 2012

Access to Space: It’s as Cheap and Easy as it will get for a Long Time

Posted by in categories: habitats, space

Throughout most of our lifetimes, there has been a lot of talk and speculation about Human colonies beyond Earth. I personally grew up reading about how we would send people back to the Moon, then to Mars and beyond. We would establish settlements and on other planets and build spacious habitats out of metals mined in the asteroid belt. We would send our grandchildren to the outer planets on nuclear powered rockets and reap the bounty of the Solar System!

All we need is cheap and reliable access to space. The Space Shuttle was going to launch every week and only cost $20 million per launch. It would ride atop a carrier craft above the atmosphere where it would blast into orbit, deliver it’s payload and any passengers, and glide back to earth, to be refit, refueled and mated to it’s carrier plane for it’s next trip a few weeks later. It just had to be approved by Congress, which they did: after making it one of the biggest jobs programs since the New Deal. The Space Shuttle had been repurposed from a space transport system to a massively expensive vote buying scheme. The extreme decentralization and patronage, to the point of leaving a Krushchev era Soviet planner in shocked amazement, drove the per launch cost close to a billion dollars by the time the program was finally shut down.

At least we have cheap and reliable Russian Protons now that the Soviet Union has fallen and the Russians are desperate for hard currency, except that they aren’t really that cheap or reliable. Well, we have some startup companies who are going to get us into space on the cheap using old NASA surplus hardware (Huh?). Only in the past decade are we seeing any real practical alternatives, in the form of Dot Com billionaires putting their own money into spacecraft development. The most promising is SpaceX founded by Elon Musk. He has had his eye on Mars for a long time and finally developed a cheap rocket that will soon carry humans into space. He did so by using the same technology that has been available for the past three decades, only without the political interference, and shown how cheap space travel can be. The base price: $53 million for a cargo capacity comparable to the Space Shuttle. Interestingly, this amounts to around $20 million in 1980 dollars. We are finally at the point we were supposed to be 30 years ago!

Unfortunately, it looks like this is about as good as it will get any time soon. The Space Elevator is going nowhere, with the laws of physics getting in the way and all, not to mention the problems posed by micrometeorites, space junk, and monatomic oxygen if it does get built with some as yet undiscovered wonder material. Theoretically, carbon nanotubes have the strength needed. Maybe. With no significant safety margin. Other alternatives such as space guns and space piers have the same problems of prohibitively massive initial costs, fragility, and they are still useless for carrying people into space due to either long travel times (= high radiation exposure) or high acceleration.

Continue reading “Access to Space: It's as Cheap and Easy as it will get for a Long Time” »

Jan 15, 2012

Can Anyone Explain Why CERN Fears Nothing more than a Scientific Safety Conference?

Posted by in categories: existential risks, particle physics

The conference was first publicly requested on April 18, 2008 and first endorsed by a court on January 27, 2011.

Had CERN who stood before that court not said “no” almost a year ago, the danger to the planet consciously incurred during 2011 could not be planned to be quintupled this year.

The only task of the conference is to find a counterproof against a single element of the 5-element chain proof of danger which looks as if nature had posed humanity a trap. The topic is the micro black holes planned to be produced by CERN as a self-declared “black hole factory.” They have 5 new properties:

– they arise much more easily
– they are undetectable by CERN’s sensors
– they at first pass friction-free through earth’s matter
– they if slow enough to circulate inside earth get stuck after a while to grow exponentially as a mini-mini-quasar that, after some years, will make for a beautiful sight from the moon
– they are not exculpated by their ultrafast natural analogues getting stuck inside neutron stars because the latter are protected by their quantum superfluidity.

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Jan 14, 2012

Why The #Occupy Movement Has No Chance, Yet

Posted by in category: economics

I’ve spent some time thinking about what the #Occupy movement is really representing. I’ve tried to attend the camps as I’ve traveled and interview the people in the camps; as well as, their formidable opponents in the ownership positions of the respective societies that Occupiers exist.

I think that I’m comfortable echoing the analysis in that Occupiers have done a good initial job in comparison to similar movements around the world and in the United States in particular. They’ve caught the attention of the masses, in that everyone knows what #Occupy means. Of course the problems of any fledgling movement are that its priorities aren’t hashed (#) out. While everyone knows what #Occupy is; no one has any idea of what it wants, or rather, needs.

Every movement-struggle-jihad, has is a battle of philosophy on how a society should exist versus how it does. Based on the consistent and more frequent collapse in the economic system, it is evident that we are due for some structural change in the modern world. When I listen to the rhetoric of this movement and the defense of its identified opponents, I think the following apply. There is a clash of ideals on whose altruism is not only virtuous but most beneficial. On the one hand we have that of the individuals, formally represented by the #Occupiers. On the other we have that of the institutions, formally represented by their owners/stakeholders. While individuals (humans in this case) can allocate a moral regard to their fellow man/woman based on their acknowledgment of his/her intrinsic or extrinsic value, institutions do not. Yet some individuals can advocate the virtues of an institution because for their holding that the institution’s incentives to take action better the society as a whole.

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Jan 13, 2012

Verne, Wells, and the Obvious Future Part 2

Posted by in categories: asteroid/comet impacts, biotech/medical, business, defense, economics, education, engineering, ethics, events, evolution, existential risks, futurism, life extension, lifeboat, media & arts, military, nuclear weapons, philosophy, physics, policy, space

I am taking the advice of a reader of this blog and devoting part 2 to examples of old school and modern movies and the visionary science they portray.

Things to Come 1936 — Event Horizon 1997
Things to Come was a disappointment to Wells and Event Horizon was no less a disappointment to audiences. I found them both very interesting as a showcase for some technology and social challenges.… to come- but a little off the mark in regards to the exact technology and explicit social issues. In the final scene of Things to Come, Raymond Massey asks if mankind will choose the stars. What will we choose? I find this moment very powerful- perhaps the example; the most eloguent expression of the whole genre of science fiction. Event Horizon was a complete counterpoint; a horror movie set in space with a starship modeled after a gothic cathedral. Event Horizon had a rescue crew put in stasis for a high G several month journey to Neptune on a fusion powered spaceship. High accelleration and fusion brings H-bombs to mind, and though not portrayed, this propulsion system is in fact a most probable future. Fusion “engines” are old hat in sci-fi despite the near certainty the only places fusion will ever work as advertised are in a bomb or a star. The Event Horizon, haunted and consigned to hell, used a “gravity drive” to achieve star travel by “folding space.” Interestingly, a recent concept for a black hole powered starship is probably the most accurate forecast of the technology that will be used for interstellar travel in the next century. While ripping a hole in the fabric of space time may be strictly science fantasy, for the next thousand years at least, small singularity propulsion using Hawking radiation to achieve a high fraction of the speed of light is mathematically sound and the most obvious future.

https://lifeboat.com/blog/2012/09/only-one-star-drive-can-work-so-far

That is, if humanity avoids an outbreak of engineered pathogens or any one of several other threats to our existence in that time frame.

Continue reading “Verne, Wells, and the Obvious Future Part 2” »