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Archive for the ‘nanotechnology’ category: Page 297

Nov 10, 2012

The Kline Directive: Technological Feasibility (2c)

Posted by in categories: defense, education, engineering, general relativity, nanotechnology, particle physics, philosophy, physics, scientific freedom, space

To achieve interstellar travel, the Kline Directive instructs us to be bold, to explore what others have not, to seek what others will not, to change what others dare not. To extend the boundaries of our knowledge, to advocate new methods, techniques and research, to sponsor change not status quo, on 5 fronts, Legal Standing, Safety Awareness, Economic Viability, Theoretical-Empirical Relationships, and Technological Feasibility.

In this post I discuss the second of three concepts, that if implemented should speed up the rate of innovation and discovery so that we can achieve interstellar travel within a time frame of decades, not centuries. Okay, I must remind you that this will probably upset some physicists.

One of the findings of my 12-year study was that gravitational acceleration was independent of the internal structure of a particle, therefore, the elegantly simple formula, g=τc2, for gravitational acceleration. This raised the question, what is the internal structure of a particle? For ‘normal’ matter, the Standard Model suggests that protons and neutrons consist of quarks, or other mass based particles. Electrons and photons are thought to be elementary.

I had a thought, a test for mass as the gravitational source. If ionized matter showed the same gravitational acceleration effects as non-ionized matter, then one could conclude that mass is the source of gravitational acceleration, not quark interaction; because the different ionizations would have different electron mass but the same quark interaction. This would be a difficult test to do correctly because the electric field effects are much greater than gravitational effects.

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Jun 1, 2012

Response to the Global Futures 2045 Video

Posted by in categories: futurism, human trajectories, nanotechnology, robotics/AI, scientific freedom, singularity, space

I have just watched this video by Global Futures 2045.

This is my list of things I disagree with:

It starts with scary words about how every crisis comes faster and faster. However this is untrue. Many countries have been running deficits for decades. The financial crisis is no surprise. The reason the US has such high energy costs goes back to government decisions made in the 1970s. And many things that used to be crises no longer happen, like the Black Plague. We have big problems, but we’ve also got many resources we’ve built up over the centuries to help. Much of the challenges we face are political and social, not technical.

We will never fall into a new Dark Ages. The biggest problem is that we aren’t advancing as fast as we could and many are still starving, sick, etc. However, it has always been this way. The 20th century was very brutal! But we are advancing and it is mostly known threats like WMDs which could cause a disaster. In the main, the world is getting safer every day as we better understand it.

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Nov 18, 2011

Femtotechnology: AB-Needles Fantastic properties and Applications

Posted by in categories: cosmology, ethics, nanotechnology, physics

Femtotechnology: AB-Needles. Fantastic properties and Applications

after posting this on facebook.com and seeing its shared on Scribd.com I was a bit shocked by the community of reads in their disregard for these thoughts on Femtotechnology. One reader was quoted to say

I don’t understand why people bother talking about femtotech when we barely even have nanotech…

And while the reader’s voice should be heard, I like to think that if we can imagine it, its worth being a part of the tool box. These ideas are some +50 years in the making and just as nanotech or any other tech this literature predating our abilities is necessary in crafting human kinds exploration. So this entry is a bit activist, and so what smile #fullspeedahead.

Jun 5, 2011

Our History Shapes the Future

Posted by in categories: counterterrorism, futurism, geopolitics, human trajectories, military, nanotechnology, philosophy, policy, space

Abstract

American history teachers praise the educational value of Billy Joel’s 1980s song ‘We Didn’t Start the Fire’. His song is a homage to the 40 years of historical headlines since his birth in 1949.

Which of Joel’s headlines will be considered the most important a millennium from now?

This column discusses five of the most important, and tries to make the case that three of them will become irrelevant, while one will be remembered for as long as the human race exists (one is uncertain). The five contenders are:

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May 31, 2010

A Space Elevator in 7

Posted by in categories: nanotechnology, space

I am a former Microsoft programmer who wrote a book (for a general audience) about the future of software called After the Software Wars. Eric Klien has invited me to post on this blog (Software and the Singularity, AI and Driverless cars) Here are the sections on the Space Elevator. I hope you find these pages food for thought and I appreciate any feedback.


A Space Elevator in 7

Midnight, July 20, 1969; a chiaroscuro of harsh contrasts appears on the television screen. One of the shadows moves. It is the leg of astronaut Edwin Aldrin, photographed by Neil Armstrong. Men are walking on the moon. We watch spellbound. The earth watches. Seven hundred million people are riveted to their radios and television screens on that July night in 1969. What can you do with the moon? No one knew. Still, a feeling in the gut told us that this was the greatest moment in the history of life. We were leaving the planet. Our feet had stirred the dust of an alien world.

—Robert Jastrow, Journey to the Stars

Management is doing things right, Leadership is doing the right things!

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Jan 18, 2010

Filling the Gaps in “Global Trends 2025″

Posted by in categories: futurism, geopolitics, nanotechnology

Because of the election cycle, the United States Congress and Presidency has a tendency to be short-sighted. Therefore it is a welcome relief when an organization such as the U.S. National Intelligence Council gathers many smart people from around the world to do some serious thinking more than a decade into the future. But while the authors of the NIC report Global Trends 2025: A Transformed World[1] understood the political situations of countries around the world extremely well, their report lacked two things:

1. Sufficient knowledge about technology (especially productive nanosystems) and their second order effects.

2. A clear and specific understanding of Islam and the fundamental cause of its problems. More generally, an understanding of the relationship between its theology, technological progress, and cultural success.
These two gaps need to be filled, and this white paper attempts to do so.

Technology
Christine Peterson, the co-founder and vice-president of the Foresight Nanotech Institute, has said “If you’re looking ahead long-term, and what you see looks like science fiction, it might be wrong. But if it doesn’t look like science fiction, it’s definitely wrong.” None of Global Trends 2025 predictions look like science fiction, though perhaps 15 years from now is not long-term (on the other hand, 15 years is not short-term either).

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Oct 16, 2009

Productive Nanosystems and the 2009 Financial Meltdown

Posted by in categories: economics, nanotechnology

Introduction
At a fundamental level, real wealth is the ability to fulfill human needs and desires. These ephemeral motivators are responsible for the creation of money, bank ledgers, and financial instruments that drive the world—caveat the fact that the monetary system can’t buy us love (and a few other necessities). Technologies have always provided us with tools that enable us to fulfill more needs and desires for more people with less effort. The exponential nanomanufacturing capabilities of Productive Nanosystems will simply enable us to do it better. Much better.

Productive Nanosystems
The National Nanotechnology Initiative defines nanotechnology as technologies that control matter at dimensions between one and a hundred nanometers, where unique phenomena enable novel applications. For particles and structures, reducing dimensions to the nanoscale primarily affects surface area to volume ratios and surface energies. For active structures and devices, the significant design parameters become exciton distances, quantum effects, and photon interactions. Connecting many different nanodevices into complex systems will multiply their power, leading some experts to predict that a particular kind of nanosystem—Productive Nanosystems that produces atomically precise products—will dramatically change the world.

Productive Nanosystems are programmable mechanoelectrochemical systems that are expected to rearrange bulk quantities numbers of atoms with atomic precision under programmatical control. There are currently four approaches that are expected to lead to Productive Nanosystems: DNA Origami[1], Bis-Peptide Synthesis[2], Patterned Atomic Layer Epitaxy[3], and Diamondoid Mechanosynthesis[4]. The first two are biomimetic bottom-up approaches that struggle to achieve long-range order and to increase complexity despite using chaotic thermodynamic processes. The second two are scanning-probe-based top-down approaches that struggle to increase productivity to a few hundred atoms per hour while reducing error rate.[5]

For the bottom-up approaches, the tipping point will be reached when researchers build the first nanosystem complex enough to do error correction. For the top-down approaches that can do error correction fairly easily, the tipping point will be reached when subsequent generations of tip arrays no longer need to be redesigned for speed and size improvements while using control algorithms that scale well (i.e. they only need generational time, synthesized inputs, and expansion room). When these milestones are reached, nanosystems will grow exponentially—unnoticeably for a few weeks, but suddenly they will become overwhelmingly powerful. There are many significant applications foreseen for mature Productive Nanosystems, ranging from aerospace and transportation to medicine and manufacturing—but what may affect us the hardest may be those applications that we can’t foresee.

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Jun 9, 2009

Be Careful What You Wish For

Posted by in category: nanotechnology

People have been worried about nanotechnology for quite some time now; nano-asbestos, advanced nano-enabled weapons, and self-replicating “gray goo” nanobots that accidentally go out of control. But what if everything goes right? What if nanotubes and nanoparticles are functionalized to stay out of the ecosystem? What if there are no major wars? What if nanoreplicators are never built, or if they are, they use modern error correction software to never mutate? What happens if nanotechnology fulfills humanity’s desires perfectly?

In the next decade or so, a new type of desktop appliance will be developed—a nanofactory that consists of very many productive nanosystems—atomically precise nanoscale machines that work together to build bulk amounts of atomically precise products.

The Foresight Technology Roadmap for Productive Nanosystems has identified a number of different approaches for building these atomically precise systems of machines that can produce other nanosystems http://www.foresight.org/roadmaps/. These approaches include Paul Rothemund’s DNA Origami, Christopher Schafmeister’s Bis-proteins, Joe Lynden’s Patterned Atomic Layer Epitaxy, and Robert Freitas and Ralph Merkle’s Diamondoid Mechanosynthesis http://www.rfreitas.com/Nano/JNNDimerTool.pdf, http://e-drexler.com/d/05/00/DC10C-mechanosynthesis.pdf, and http://www.molecularassembler.com/Papers/JCTNPengFeb06.pdf. Each of these approaches has the potential of building the numerous nanoscale electronic, mechanical, and structural components that comprise productive nanosystems.

The ultimate result will be a nanofactory that can build virtually anything—limited only by the laws of physics, the properties of the input feedstock, and the software that controls the device.

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May 3, 2009

Swine Flu Update: are we entering an Age of Pandemics?

Posted by in categories: biological, biotech/medical, existential risks, futurism, geopolitics, nanotechnology, space, sustainability

May 2: Many U.S. emergency rooms and hospitals crammed with people… ”Walking well” flood hospitals… Clinics double their traffic in major cities … ER rooms turn away EMT cases. — CNN

Update May 4: Confirmed cases of H1N1 virus now at 985 in 20 countries (Mexico: 590, 25 deaths) — WHO. In U.S.: 245 confirmed U.S. cases in 35 states. — CDC.

“We might be entering an Age of Pandemics… a broad array of dangerous emerging 21st-century diseases, man-made or natural, brand-new or old, newly resistant to our current vaccines and antiviral drugs…. Martin Rees bet $1,000 that bioterror or bioerror would unleash a catastrophic event claiming one million lives in the next two decades…. Why? Less forest, more contact with animals… more meat eating (Africans last year consumed nearly 700 million wild animals… numbers of chickens raised for food in China have increased 1,000-fold over the past few decades)… farmers cut down jungle, creating deforested areas that once served as barriers to the zoonotic viruses…” — Larry Brilliant, Wall Street Journal


Mar 23, 2009

Detecting Disease by Tattoo

Posted by in categories: biotech/medical, nanotechnology

If you ever swore to yourself (or to another) that you’d never get a tattoo, you may just want to reconsider. You may within just a couple of years have a very good reason to get one made out of “nanoink”.

As recently reported on Discovery News, “nanoink” allows for monitoring blood glucose in real-time right under the skin. It does so by using a hydrophobic nanoparticle that changes colors as glucose levels rise and fall. The ink consists of a glucose-detecting molecule, a color changing dye and a molecule that mimics glucose. These three particles continuously swish around inside a 120-nm orb. When glucose is present, the glucose-detecting molecule attaches and glows yellow; if absent, the ink turns orange.

The use of this technology has the advantage over traditional glucose monitoring, of course, in that there is a one-time needle stick for placing the tattoo over the tens of thousands of sticks that a diabetic will need to have over a lifetime.

Another advantage of nanoink tattooing: they can be removed. At least one researcher from Brown University has developed tattoo ink with microencapsulated beads coated with a polymer that when broken with a single laser treatment can simply be expelled from the body, as opposed to multiple laser removal treatments for conventional tattoos.

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