January 2012 – Lifeboat News: The Blog https://lifeboat.com/blog Safeguarding Humanity Mon, 05 Jun 2017 03:30:42 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.1 The Difference Between a Lunar Base and Colony https://spanish.lifeboat.com/blog/2012/01/the-difference-between-a-lunar-base-and-colony https://spanish.lifeboat.com/blog/2012/01/the-difference-between-a-lunar-base-and-colony#comments Tue, 31 Jan 2012 07:55:23 +0000 http://lifeboat.com/blog/?p=3092 Recently, Newt Gingrich made a speech indicating that, if elected, he would want 10% of NASA’s budget ($1.7 billion per year) set aside to fund large prizes incentivizing private industry to develop a permanent lunar base, a new propulsion method, and eventually establishing a martian base.

THE FINANCIAL FEASIBILITY OF A LUNAR BASE
Commentators generally made fun of his speech with the most common phrase used being “grandiose”.  Perhaps.  But in 1996 the Human Lunar Return study estimated $2.5 billion from NASA to send and return a human crew to the Moon.  That was before SpaceX was able to demonstrate significant reductions in launch costs.  One government study indicated 1/3 of the cost compared to traditional acquisition methods.  Two of SpaceX’s Falcon Heavies will be able to launch nearly as much payload as the Saturn V while doing so at 1/15th the cost of the same mass delivered by the Shuttle.

So, we may be at the place where a manned lunar base is within reach even if we were to direct only 10% of NASA’s budget to achieve it.

I’m not talking about going to Mars with the need for shielding but rather to make fast dashes to the Moon and have our astronauts live under Moon dirt (regolith) shielding while exploiting lunar ice for air, water, and hence food.

IS A SMALL COLONY WITHIN REACH?
But the point of this post is this.  If a small lunar base is within our reach, how much more would it take to achieve something that most of us realize would be the single most important step in ensuring the survival of the human species should a truly existential event strike Planet Earth.  So I’m describing a small, self-sufficient colony.  I would say that the difference between a base and a self-sufficient colony is fairly small.  Small enough to make it worth our while to attempt to achieve.

THE MOST ESSENTIAL REQUIREMENTS
So, what are the requirements for a self-sufficient colony?  The most critical would be air, water, and food.  But understand, oxygen and water can be produced from the 600 million metric meters of water ice estimated to exist at the north lunar pole.  So there’s no shortage.  And with recycling, the amount of daily required input could be pretty small — small enough to easily be within a day’s task for mining.  But food also requires fertilizer.  Fortunately for us, the LCROSS results showed that there is also methane and ammonia in the ice and the regolith contains other minerals such as phosphorus and potassium.  So, the most critical components for a colony would already be present with a manned base at a lunar pole.

HABITATS
Besides this, the colony would also need protection from the vacuum and cosmic radiation — i.e. a sealed habitat.  This should not be too difficult.  For a base, options include inflatable habitats and using fuel tanks as durable, sealable compartments.  Radiation protection is as simple as piling regolith over the structures or even digging trenches or caves into the sides of hills or craters.  That’s fine for a base.  But a self-sufficient colony requires that future colonists be able to construct their own habitats.  This could be achieved in the intermediate term by simply caving out habitats, supporting them, and then inflating a liner.  Many such liners could be delivered in a single 5,000 kg payload.  In the long term, such liners could be produced as plastics from volatiles resulting from the production of water from lunar ice.  Broken liners could be patched or even melted to produce new liners.  Alternately, metals can be fairly easily produced from the regolith.  Run a permanent magnet through the soil, extract iron, melt it using solar concentrating mirrors and then process the molten metal to sheets, wires, cast forms, etc.  Glass could be made the same way along with fiberglass.  Natural lighting could supplement electrical power by using aluminum mirrors and glass.  Supplemental heat could be provided in a similar manner along with locally derived insulation.

ELECTRICITY
Thin film solar panels can provide > 1,000 W/kg.  So a 5,000 kg payload could provide a very large amount of onging power (if my math is correct, enough for perhaps 500 colonists).  Excessive solar panels could be stored under ground and then used as needed thereby giving the colony decades of power.  Eventually, a self-sustaining colony would need to produce its own power from silicon in the regolith.  Storage of energy during the lunar night could be accomplished through the use of electrolysis of water to oxygen and hydrogen.  These could then be recombined in a fuel cell to produce electricity and heat. Alternately, the colonists could simply travel every two weeks to the other side of the hill near the pole to another sunlit habitat.

CLOTHING
Again, to buy the colony time to be able to develop the ability to produce its own space suits, many years’ worth of thin airproof liners to space suits could be delivered in a single 5,000 kg payload.  Again, a self-sustaining colony would need to eventually produce their own.  Between the use of fiberglass, metals, and locally produced plastic or silicon sealants, eventually the colony could produce their own.  Of course plants could be grown to provide fibers for clothing.

EQUIPMENT
To avoid day-long exposure to cosmic radiation while mining surface ice, mining could either be conducted underground or telerobotically.  But regolith is very gritty and can wear out teleoperated mining equipment.  But if a colony is able to produce its own metals and had machining equipment which could be used to produce more machining equipment, then the colony could stay ahead of equipment wearing out. 

High-tech equipment (computer chips, cameras, and radio equipment) is certainly useful but I believe that there are ways around needing them.  Still, in the interim, a single 5,000 kg payload delivery could provide centuries worth of computer chips, camera chips, and critical radio equipment components.  For example, the Voyager craft have been exposed to 30+ years of 360 degree space radiation yet still work fine.  So, an apple box worth of computer chips could last centuries.  Eventually the colony would need to produce its own high-tech equipment.  Perhaps they could use 1940’s technology such as vacuum tubes.

GRAVITY & PREGNANCY
The Moon’s 1/6 gravity is probably not enough to prevent bone and muscle loss.  Experiments on the international space station (ISS) show that an exercise program can do much to prevent bone loss.  A recent study indicates that Fosamax prevents bone loss in astronauts.  A 5,000 kg payload could give 83 million doses of Fosamax.  Stored in a permanently shadowed area, it could provide for a very large number of future colonists.  But also, a basic centrifuge or even a tether ball-like contraption could provide artificial gravity for colonists for part of the day.  Trenches dug along its path could provide partial protection from cosmic rays.  Alternately, space forums have discussed completely underground centrifuges using various ingenious approaches.

Of particular concern is how fetal children would develop given limited gravity.  Studies of animals on the ISS indicates that this is a real concern.  We don’t know enough about this issue.  Perhaps pregnant women would need to spend significant amounts of time in a centrifuge perhaps in all trimesters.

ADDITIONAL REQUIREMENTS
I have started with the most essential requirements and have worked down.  I propose that there are technologic solutions for each of the requirements but perhaps I have been unrealistic in one or more areas or perhaps have neglected to address an important requirement.  Feel free to comment below.

GENETIC DIVERSITY
For a truly self-sustaining colony, for humans, the Minimum Viable Population (MVP) is in the realm 1,000.  I personally suspect that it is actually less than that but a solution here could be for a single payload delivery of frozen embryos for surrogate parenting to be frozen long-term in permanently shadowed areas.  Although this may strike some as being unethical, these would only be needed in the event of a truly existential event on Planet Earth. 

PRESERVING THE BIOSPHERE
I envision the colony as not only securing the human species but a good representation of Earth’s entire biosphere.  But discussing the details of that topic would extend this post much longer than it has already become.  More on that later.

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Factors on the pendulum of MBH decay/accretion & Aggregation https://spanish.lifeboat.com/blog/2012/01/to-settle-the-pendulum-of-mbh-decayaccretion https://spanish.lifeboat.com/blog/2012/01/to-settle-the-pendulum-of-mbh-decayaccretion#comments Fri, 27 Jan 2012 12:45:24 +0000 http://lifeboat.com/blog/?p=3072 I write this post on specific request from Anthony, who kindly asked that I write a bottom line summary of what I found through my research which leads me to suggest the points should be cleared up in research and/or a safety conference on the LHC.

1. As HR is an unproven theory, it may prove to be ineffective compared to the math model. This regardless of Rossler’s Telemach theorem which attempts to prove this.

2. The G&M calculation on theoretical MBH accretion rates is fundamentally flawed, as it bases the analysis on one single MBH and fails to consider about MBH aggregation.

3. As HR is an unproven concept, it cannot be relied upon to detect MBH. The only method to be certain no MBH are created is to monitor unaccounted loss of mass/energy.

As concerns raised in the public domain were not being answered sufficiently, there is a  moral duty for a public safety conference to discuss likely MBH decay/accretion rates.

I dismissed what I would consider the more colourful risks. I’m considering writing a follow-on whitepaper on the topic of MBH aggregation. If two MBH aggregate at any point it would halve the G&M calculated time-frame, and further aggregation would reduce the accretion time-frame accordingly. If frequent MBH aggregation was a typical expected occurrence, then you would have a run-away effect, so this requires an analysis.

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Old UNIX/IBM control systems: Potential time bombs in Industry https://spanish.lifeboat.com/blog/2012/01/old-unixibm-control-systems-potential-time-bombs-in-industry https://spanish.lifeboat.com/blog/2012/01/old-unixibm-control-systems-potential-time-bombs-in-industry#comments Fri, 20 Jan 2012 09:44:58 +0000 http://lifeboat.com/blog/?p=2994 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…

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Artifacts in the Solar System https://spanish.lifeboat.com/blog/2012/01/artifacts-in-the-solar-system https://spanish.lifeboat.com/blog/2012/01/artifacts-in-the-solar-system#comments Tue, 17 Jan 2012 20:19:12 +0000 http://lifeboat.com/blog/?p=2979 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.

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Post Einsteinian Language? https://spanish.lifeboat.com/blog/2012/01/post-einsteinian-language Mon, 16 Jan 2012 16:11:56 +0000 http://lifeboat.com/blog/?p=2940 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…

Good luck to you if you do…

Schwann Cybershaman

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Electro-magnetic Vortex phenomena & Industrial Implications… https://spanish.lifeboat.com/blog/2012/01/electro-magnetic-vortex-phenomena-industrial-implications Mon, 16 Jan 2012 13:38:22 +0000 http://lifeboat.com/blog/?p=2930 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.

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Access to Space: It’s as Cheap and Easy as it will get for a Long Time https://spanish.lifeboat.com/blog/2012/01/access-to-space-its-as-cheap-and-easy-as-it-will-get-for-a-long-time https://spanish.lifeboat.com/blog/2012/01/access-to-space-its-as-cheap-and-easy-as-it-will-get-for-a-long-time#comments Mon, 16 Jan 2012 01:18:41 +0000 http://lifeboat.com/blog/?p=2842 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.

Back to the subject of colonies in space, the main obstacle is carrying enough cargo to sustain a group of people in the most hostile environment imaginable for an indefinite time. We have to bring our own air, water food, and shelter, and it has to be enough shelter to live in full time. No going outside for a breath of fresh air. The solution would seem to be a concept commonly called ISRU: In Situ Resource Utilization. We would go to another planet and use locally available materials to produce what we need on site. We now know that water ice is abundant on the Moon, Mars and probably even the asteroid belt. We can electrolyze water to produce oxygen and hydrogen for life support and fuel. We also have rovers and an imaging satellite on Mars that can be used to find useful ores before we get there to aid selection of an initial colony site. We can use locally available minerals to build habitats and eventually grow our own food. We just need to bring the tools to take advantage of locally available resources.

Taking the case of a proposed Mars colony, a lot of thought has gone into the construction and supply of a colony. Since beginning my own research, I have found that little has been done on some very important details. One of these “little details” is the nature of construction materials. I just completed my Civil Engineering and my senior project was a study on the curing properties of magnesium oxychloride cement in a simulated Martian environment. This looks like a promising material for construction of large structures on Mars that can be made with a minimal amount of energy input. I assumed that similar research had been done before and was surprised to find otherwise. Rudimentary studies have been done on “mooncrete”, but it has little utility in building a Mars colony. While there are many ideas on how to build all sorts of space habitats, little research has been done on the production and fabrication of basic materials. The proponents of space colonization have focused on the big picture, but nobody has gone through the effort of the boring basic research needed to make their dreams a reality.

My study showed promising results and my paper has been posted on the Mars Foundation web site. I am now working on a design study for a Mars habitat that can be built within a reasonable time with locally available materials and equipment that can be carried on a single SpaceX Dragon. This is not complicated stuff and does not require any great genius, just a lot of hard work. The technology is here, we just need to develop appropriate equipment to get the job done. If anyone else is actively engaged in research along the same lines please contact me so we can compare notes or collaborate.

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Why The #Occupy Movement Has No Chance, Yet https://spanish.lifeboat.com/blog/2012/01/why-the-occupy-movement-has-no-chance-yet https://spanish.lifeboat.com/blog/2012/01/why-the-occupy-movement-has-no-chance-yet#comments Sat, 14 Jan 2012 16:00:38 +0000 http://lifeboat.com/blog/?p=2901

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.

Institutions were created by individuals to protect the discovery, development, and deployment of technologies (methodologies, hardware, & software) that help individuals control what would otherwise be a chaotic environment. Who wants to live in 3000 B.C.E.? I’d doubt any of us could enjoy limiting our communication to a distances less than 20 feet. While institutions have served individuals well over the millennia their control mechanisms have the potential to run-a-muck. Their primary control mechanisms are related to their extrinsic value, or ability to generate revenues above the costs to exists. Controls validate the existence of each institution (for-profit & not-for-profit alike), but individuals don’t regard themselves as having extrinsic value alone (at least not all of them), per this on-going survey that I’ve been taking with some backlash about the use of language on “value”. Problem comes into play when those who are still benefiting from the existing operations of institutions clashes with those who are no longer benefiting. As institutions trying to sustain existence, they actually have incentives to suppress markets to indemnify stakeholders, per their understanding of who is most valuable.

Regarding the Occupy movement and its potential participants, the progress will occur when and if the most radical of the bunch agree that the contrast of values between individuals and institutions is infringing on their civil or even human rights and is in fact stifling their ability to live productive lives. Regardless of how they derive their understanding of the modern economic situation, they’ll have to hold it as dear and urgent as their more radical predecessors of the last past successful liberal movements. I’m not referring to MLK’s boycotts or the freedom riders, or the Jewish resistance in Europe, or the Mandela’s political activism. I’m referring to the immediate threat that militant groups like the Black Panthers, or the onslaught of the Allied Forces, or the provocative military growth of Umkhonto we Sizwe and the many like groups respectively per each struggle. The laws of arbitrage are clear and animalistic. Incumbent leadership, ideals, and conservatism can only respect some formidable opposition.

The incumbent power in 1950’s United States and 1980’s South Africa only yielded because they perceived an inevitable destructive threat; any rhetoric that suggests otherwise is misleading. It would take years to list all the martyrs from every movement who gave their lives to inspire the few, and were willing to take other’s lives for their cause. The pathology of pacifism is a failed effort when it does not inspire an aggressive colleague. Occupiers are going to have to figure out what in the world they can do to change the way institutions and individuals agree on human value. Although they were arguing slightly different causes, the incumbent powers decided to oblige Lyndon B Johnson immortalizing Martin Luther King in order to nullify the slogan “black power” and its author Kwame Ture (Stokely Carmichael). It seems as though it takes a guilty old man faced with the passions of an aggressive young man, to make any incremental change..

-          Originally at Integrationalism

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Verne, Wells, and the Obvious Future Part 2 https://spanish.lifeboat.com/blog/2012/01/verne-wells-and-the-obvious-future-part-2 https://spanish.lifeboat.com/blog/2012/01/verne-wells-and-the-obvious-future-part-2#comments Fri, 13 Jan 2012 22:41:44 +0000 http://lifeboat.com/blog/?p=2871 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://spanish.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.

Hand in hand with any practical method of journeys to other star systems in the concept of the “sleeper ship.” Not only as inevitable as the submarine or powered flight was in the past, the idea of putting human beings in cold storage would bring tremendous changes to society. Suspended animation using a cryopreservation procedure is by far the most radical and important global event possible, and perhpas probable, in the near future. The ramifications of a revivable whole body cryopreservation procedure are truly incredible. Cryopreservation would be the most important event in the history of mankind. Future generations would certainly mark it as the beginning of “modern” civilization. Though not taken seriously anymore than the possiblility of personal computers were, the advances in medical technology make any movies depicting suspended animation quite prophetic.

The Thing 1951/Them 1954 — Deep Impact 1998/Armegeddon 1998
These four movies were essentially about the same.…thing. Whether a space vampire not from earth in the arctic, mutated super organisms underneath the earth, or a big whatever in outer space on a collision course with earth, the subject was a monstrous threat to our world, the end of humankind on earth being the common theme. The lifeboat blog is about such threats and the The Thing and Them would also appeal to any fan of Barbara Ehrenreich’s book, Blood Rites. It is interesting that while we appreciate in a personal way what it means to face monsters or the supernatural, we just do not “get” the much greater threats only recently revealed by impact craters like Chixculub. In this way these movies dealing with instinctive and non-instinctive realized threats have an important relationship to each other. And this connection extends to the more modern sci-fi creature features of past decades. Just how much the The Thing and Them contributed to the greatest military sci-fi movie of the 20th century (Aliens, of course) will probably never be known. Director James Cameron once paid several million dollars out of court to sci-fi writer Harlan Ellison after admitting during an interview to using Ellison’s work- so he will not be making that mistake again. The second and third place honors, Starship Troopers and Predator, were both efforts of Dutch Film maker Paul Verhoeven.

While The Thing and Them still play well, and Deep Impact, directed by James Cameron’s ex-wife, is a good flick and has uncanny predictive elements such as a black president and a tidal wave, Armegeddon is worthless. I mention this trash cinema only because it is necessary for comparison and to applaud the 3 minutes when the cryogenic fuel transfer procedure is seen to be the farce that it is in actuality. Only one of the worst movie directors ever, or the space tourism industry, would parade such a bad idea before the public.
Ice Station Zebra 1968 — The Road 2009
Ice Station Zebra was supposedly based on a true incident. This cold war thriller featured Rock Hudson as the penultimate submarine commander and was a favorite of Howard Hughes. By this time a recluse, Hughes purchased a Las Vegas TV station so he could watch the movie over and over. For those who have not seen it, I will not spoil the sabotage sequence, which has never been equaled. I pair Ice Station Zebra and The Road because they make a fine quartet, or rather sixtet, with The Thing/Them and Deep Impact/Armegeddon.

The setting for many of the scenes in these movies are a wasteland of ice, desert, cometoid, or dead forest. While Armegeddon is one of the worst movies ever made on a big budget, The Road must be one of the best on a small budget- if accuracy is a measure of best. The Road was a problem for the studio that produced it and release was delayed due to the reaction of the test audiences. All viewers left the theatre profoundly depressed. It is a shockingly realistic movie and disturbed to the point where I started writing about impact deflection. The connection between Armegeddon and The Road, two movies so different, is the threat and aftermath of an asteroid or comet impact. While The Road never specifies an impact as the disaster that ravaged the planet, it fits the story perfectly. Armegeddon has a few accurate statements about impacts mixed in with ludicrous plot devices that make the story a bad experience for anyone concerned with planetary protection. It seems almost blasphemous and positively criminal to make such a juvenile for profit enterprise out of an inevitable event that is as serious as serious gets. Do not watch it. Ice Station Zebra, on the other hand, is a must see and is in essence a showcase of the only tools available to prevent The Road from becoming reality. Nuclear weapons and space craft- the very technologies that so many feared would destroy mankind, are the only hope to save the human race in the event of an impending impact.

Part 3:
Gog 1954 — Stealth 2005
Fantastic Voyage 1966 — The Abyss 1989
And notable moments in miscellaneous movies.

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Reparations Could Have a Future https://spanish.lifeboat.com/blog/2012/01/reparations-could-have-a-future https://spanish.lifeboat.com/blog/2012/01/reparations-could-have-a-future#comments Thu, 12 Jan 2012 16:03:35 +0000 http://lifeboat.com/blog/?p=2877
This week Reuters reported:

“As many as 2,000 people forcibly sterilized under a past North Carolina program should be compensated $50,000 each, a panel voted on Tuesday, the first time a state has moved to pay victims of a discredited human selection program.”

There approximately 2000 living victims of the eugenics experiment conducted between 1929 and 1974 in the State of North Carolina. The short report released at a late hour of the business day (3:26PM) in a non-graphic format only commanded ‘24’ tweets by the time that I wrote this article some 24 hour later. These are extremely small viewership numbers for the magnitude of this article.

Governor Beverly Perdue provided political backing for the aforementioned compensation derived by a five member task-force. While this information may just seem as common as Interpol discovering some Waffen SS General in his late 90’s, it is not. The political and legal implications of this executive decision are wide spread. It is not the normal protocol of any government to give legal and financial incentive to its constituencies to demand (and receive) any type of indemnification. A greater question for the NC-Governor and the task force is: Why? While I’d expect to see some District and possibly even the Supreme Court push back on this legislation, there is a real opportunity posed to the pseudo-democratic body that is the United States from a legal, socio-cultural, and technological standpoint. Of course there is a real threat posed from an economic standpoint. Every affected entity (individual or institution) seeking reparations for their abuse, from slavery to agriculture subsidies, has some new grounds for argument; and further, in the fashion of capitalistic we should assume that every ambitious attorney is paying attention.

Pandora’s passions for chaos provides all the incentives that federal, state, and local governments need to keep denying the need to even consider reparations for the many socio-cultural, ethnic, gender, and preference groups that are deemed “undesirable” by the most conservative and elitist of us all. Transhumanists have long had ties to eugenics,but ideas on how to improve the genetic composition of a population have to ensure that individual choice to (or not to) participate at their own risks/reward.

The lack of ethics that human-kind has witnessed by technological elites will over the others has been consistently dangerous to the optimal operation efficiency and effectiveness of our species. While it is likely impossible philosophically for human’s to actually have a nature about themselves, the one thing that we’ve always tried to do is control our situation to better manage the risks of uncertainty. It’s not an ill mission, but the pathology of our altruism often shows that it is our most stifling virtue. Projecting our idea of greatness onto the entire population is not progressive, even as technology progresses. As we merge away from the socio-cultural conservatism of the past century(s) and our diverse preferences become cliché, let’s be conscious to honor and protect choice, and continue to scale the distribution of information to individuals and institutions alike.

– originally from Integrationalism

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