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Archive for the ‘physics’ category: Page 301

Dec 11, 2013

Applied Omniscience in Transformative and Integrative Risk Management!

Posted by in categories: big data, biological, biotech/medical, bitcoin, business, climatology, complex systems, cosmology, counterterrorism, defense, economics, education, energy, engineering, environmental, ethics, existential risks, finance, food, futurism, genetics, geopolitics, government, habitats, health, information science, life extension, nanotechnology, neuroscience, physics, policy, robotics/AI, science, scientific freedom, security, singularity, space, supercomputing, surveillance, sustainability, transhumanism, transparency, transportation, treaties

Applied Omniscience in Transformative and Integrative Risk Management! By Mr. Andres Agostini
OMNISCIENCE
This is an excerpt from the presentation, “…Applied Omniscience in Transformative and Integrative Risk Management!…” that discusses some management theories and practices. To read the entire piece, just click the link at the end of article:

Please see the graphic at http://lnkd.in/dUstZEk

Dec 11, 2013

Womb-to-Tomb Management!

Posted by in categories: big data, biological, bitcoin, business, complex systems, cyborgs, economics, education, energy, engineering, environmental, ethics, existential risks, finance, futurism, government, health, information science, philosophy, physics, robotics/AI, science, scientific freedom, security, singularity, supercomputing, sustainability, transhumanism, transparency

Womb-to-Tomb Management! By Mr. Andres Agostini
Womb-To-Tomb Management
This is an excerpt from the presentation, “…Womb-to-Tomb Management!…” that discusses some management theories and practices. To read the entire piece, just click the link at the end of article:

Please see the graphic at http://lnkd.in/dbD4G7e

Dec 10, 2013

NASA’s Managerial and Leadership Methodology

Posted by in categories: big data, biological, bionic, bioprinting, biotech/medical, bitcoin, business, chemistry, complex systems, cyborgs, economics, education, energy, engineering, environmental, ethics, existential risks, finance, food, futurism, genetics, geopolitics, government, health, information science, life extension, military, philosophy, physics, robotics/AI, science, scientific freedom, security, singularity, space, supercomputing, sustainability, transhumanism, transparency, transportation

This is an excerpt from the conclusion section of, “…NASA’s Managerial and Leadership Methodology, Now Unveiled!..!” by Mr. Andres Agostini, that discusses some management theories and practices. To read the entire piece, just click the link at the end of this illustrated article and presentation:

superman
In addition to being aware and adaptable and resilient before the driving forces reshaping the current present and the as-of-now future, there are some extra management suggestions that I concurrently practice:

1. Given the vast amount of insidious risks, futures, challenges, principles, processes, contents, practices, tools, techniques, benefits and opportunities, there needs to be a full-bodied practical and applicable methodology (methodologies are utilized and implemented to solve complex problems and to facilitate the decision-making and anticipatory process).

The manager must always address issues with a Panoramic View and must also exercise the envisioning of both the Whole and the Granularity of Details, along with the embedded (corresponding) interrelationships and dynamics (that is, [i] interrelationships and dynamics of the subtle, [ii] interrelationships and dynamics of the overt and [iii] interrelationships and dynamics of the covert).

Continue reading “NASA's Managerial and Leadership Methodology” »

Dec 10, 2013

Futuretronium Book

Posted by in categories: bionic, bitcoin, business, complex systems, cyborgs, economics, education, energy, engineering, ethics, existential risks, finance, futurism, genetics, geopolitics, government, information science, nanotechnology, neuroscience, philosophy, physics, policy, posthumanism, science, security, singularity, supercomputing, sustainability, transhumanism, transportation

This is an excerpt from, “Futuretronium Book” by Mr. Andres Agostini, that discusses some management theories and practices with the future-ready perspective. To read the entire piece, just click the link at the end of article:

“…#1 Futuretronium ® and the administration and application of the scientific method without innuendos and in crescendo as fluid points of inflections ascertain that the morrow is a thing of the past…”

ADVERSARIAL
”…#2 Futuretronium ®, subsequently, there is now and here available the unabridged, authoritative eclictation and elucidation of actionable knowledge from and for the incessantly arrhythmic, abrupt, antagonistic, mordant, caustic, and anarchistic future, as well as the contentious interrelationship between such future and the present…”

“…#3 Futuretronium ®, a radical yet rigorous strong-sense and critico-creative «Futures Thinking», systems approach to quintessential understanding of the complexities, subtleties, and intricacies, as well as the opportunities to be exploited out of the driving forces instilling and inflicting perpetual change into twenty-first century…”

Read the full book at http://lnkd.in/ZxV3Sz to further explore these topics and experience future-ready management practices and theories.

Dec 9, 2013

NASA Working on Faster-Than-Light Space Travel

Posted by in categories: physics, space travel

By

warp drive

Well, maybe Star Trek isn’t really that far away. An announcement a few months ago from physicist Harold White surprised many in the space community. White claimed that he and a NASA team were working on developing faster than light warp drive.

White spoke to website io9 last month to explain the project, which combines Einstein’s theory of relativity, the latest in science and a touch of science fiction.

Continue reading “NASA Working on Faster-Than-Light Space Travel” »

Nov 30, 2013

Supermanagement!

Posted by in categories: bitcoin, business, complex systems, economics, education, engineering, ethics, existential risks, finance, futurism, geopolitics, information science, physics, robotics/AI, science, singularity, sustainability, transparency

Supermanagement! by Mr. Andres Agostini (Excerpt)

DEEPEST

“…What distinguishes our age from every other is not the world-flattening impact of communications, not the economic ascendance of China and India, not the degradation of our climate, and not the resurgence of ancient religious animosities. Rather, it is a frantically accelerating pace of change…”


Read the entire piece at http://lnkd.in/bYP2nDC

Nov 14, 2013

The Disruptional Singularity

Posted by in categories: business, climatology, complex systems, cosmology, counterterrorism, cybercrime/malcode, defense, economics, education, engineering, ethics, existential risks, finance, futurism, nanotechnology, physics, policy, robotics/AI, science, singularity, supercomputing, sustainability, transparency

(Excerpt)

Beyond the managerial challenges (downside risks) presented by the exponential technologies as it is understood in the Technological Singularity and its inherent futuristic forces impacting the present and the future now, there are also some grave global risks that many forms of management have to tackle with immediately.

These grave global risks have nothing to do with advanced science or technology. Many of these hazards stem from nature and some are, as well, man made.

For instance, these grave global risks ─ embodying the Disruptional Singularity ─ are geological, climatological, political, geopolitical, demographic, social, economic, financial, legal and environmental, among others. The Disruptional Singularity’s major risks are gravely threatening us right now, not later.

Read the full document at http://lnkd.in/bYP2nDC

Oct 22, 2013

100YSS A Success

Posted by in categories: education, events, fun, human trajectories, physics, scientific freedom, space

I am very pleased to say that the 2013 100YSS conference held in Houston, TX, was a success. I met a lot of like minded people — people who want to make interstellar travel a reality — though we differ in our opinions of when.

I was especially pleased to be able to visit with Mae Jemison, Jill Tarter and Pamela Contag. These three are amazing, shepherding us along. Shepherding us? Yes, are a loose collection of visionaries going every which way.

Mae Jemison
Jill Tarter
Pamela Contag

Oct 10, 2013

There is this wonderful German-language Report on the Higgs Boson and the LHC

Posted by in categories: existential risks, physics

http://www.ardmediathek.de/wdr-fernsehen/quarks-und-co/quark…d=17482362

I learned from it about the unfathomable degree of social coherence among the many thousand scientists and engineers whose synergy makes this largest constructive effort of humankind since the pyramids possible. And it also revealed the wonderful spirit of Peter Higgs who is a loving mind in the old sense of a devout scientist.

Ranga Yogeshwar here made it clear to me for the first time WHY this brave community could not respond to a novelty that would have destroyed their cohesion. The effort was too big to be disturbed even for a few days of “second thoughts.” For that it was too late from the beginning.

So CERN’s public refusal to update its “safety report” for more than 5 years is part and parcel of the beauty of the new pyramid (the word means “immortality”). Imagine the pyramids’ construction having been disturbed by a news that interfered with its political and divine purpose: This would have meant the end of the whole effort and the civilization behind it.

Continue reading “There is this wonderful German-language Report on the Higgs Boson and the LHC” »

Sep 17, 2013

Space-Mining For Our Fastest Depleting Resource: Helium

Posted by in categories: economics, engineering, futurism, physics, robotics/AI, space, sustainability

Most of us know helium as that cheap inert lighter-than-air gas we use to fill party balloons and inhale to increase voice-pitch as a party trick for kids. However, helium has much more important uses to humanity — from medical (e.g. MRIs), military and defense (submarine detectors use liquid helium to clean up noisy signals), next-generation nuclear reactors, space shuttles, solar telescopes, infra-red equipment, diving, arc welding, particle physics research (the super-magnets in particle colliders rely on liquid helium), the manufacture of many digital devices, growing silicon crystals, the production of LCDs and optical fibers [1].

The principal reason helium is so important is due to its ultra-low boiling-point and inert nature making it the ultimate coolant of the human race. As the isotope helium-3, helium is also used in nuclear fusion research [2]. However, our Earth supplies of helium are being used at an unprecedented rate and could be depleted within a generation [4] and at the current rate of consumption we will run out within 25 to 30 years. As the gas is often thought of as a cheap gas it is often wasted. However, those who understand the situation, such as Prof Richardson, co-chair of a recent US National Research Council inquiry into the coming helium shortage, warn that the gas is not cheap due to the supply being inexhaustible, but because of the Helium Privatisation Act passed in 1996 by the US Congress.

Helium only accounts for 0.00052% of the Earth’s atmosphere and the majority of the helium harvested comes from beneath the ground being extracted from minerals or tapped gas deposits. This makes it one of the rarest elements of any form on the planet. However, the Act required the helium stores [4] held underground near Amarillo in Texas to be sold off at a fixed rate by 2015 regardless of the market value, to pay off the original cost of the reserve. The Amarillo storage facility holds around half the Earth’s stocks of helium: around a billion cubic meters of the gas. The US currently supplies around 80 percent of the world’s helium supplies, and once this supply is exhausted one can expect the cost of the remaining helium on Earth to increase rapidly — as this is in all practicality quite a non-renewable resource.

There is no chemical way of manufacturing helium, and the supplies we have originated in the very slow radioactive alpha decay that occurs in rocks. It has taken 4.7 billion years for the Earth to accumulate our helium reserves, which we will have exhausted within about a hundred years of the US’s National Helium Reserve having been established in 1925. When this helium is released to the atmosphere, in helium balloons for example, it is lost forever — eventually escaping into space [5][6]. So what shall we do when this crucial resource runs out? Well, in some cases liquid nitrogen (−195°C) may be adopted as a replacement — but in many cases liquid nitrogen cannot be used as a stand alone coolant as tends to be trickier to work with (triple point and melting point at around −210°C) — so the liquid helium is used because it is capable of staying liquid at the extreme cool temperatures required. No more helium means no more helium liquid (−269°C) that is used to cool the NMR (nuclear magnetic resonance apparels), and in other machines such as MRI scanners. One wonders therefore must we look towards space exploration to replenish our most rare of resources on Earth?

Continue reading “Space-Mining For Our Fastest Depleting Resource: Helium” »