Saturday, January 22, 2011

The Edge World Question Center:

Evidently, something powerful had happened in my brain.FRANK WILCZEK


So this year.....

WHAT SCIENTIFIC CONCEPT WOULD IMPROVE EVERYBODY'S COGNITIVE TOOLKIT?

The term 'scientific"is to be understood in a broad sense as the most reliable way of gaining knowledge about anything, whether it be the human spirit, the role of great people in history, or the structure of DNA. A "scientific concept" may come from philosophy, logic, economics, jurisprudence, or other analytic enterprises, as long as it is a rigorous conceptual tool that may be summed up succinctly (or "in a phrase") but has broad application to understanding the world. The Edge Question 2011

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FRANK WILCZEK

Physicist, MIT; Recipient, 2004 Nobel Prize in Physics; Author, The Lightness of Being



In this picture, the flow of information runs from top to bottom. Sensory neurons — the eyeballs at the top — take input from the external world and encode it into a convenient form (which is typically electrical pulse trains for biological neurons, and numerical data for the computer "neurons" of artificial neural networks). They distribute this encoded information to other neurons, in the next layer below. Effector neurons — the stars at the bottom — send their signals to output devices (which are typically muscles for biological neurons, and computer terminals for artificial neurons). In between are neurons that neither see nor act upon the outside world directly. These inter-neurons communicate only with other neurons. They are the hidden layers.WHAT SCIENTIFIC CONCEPT WOULD IMPROVE EVERYBODY'S COGNITIVE TOOLKIT?

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Pathways

Can we say that no two pathways are ever the same, then to what value "applying constraints on communication, then are they not the idea of limiting the potential, through connection of "other hidden layer neurons," in other people, are also activated? What is "the link" between this communication?



....finally, having the ability to dream:) See:Creating the Perfect Human Being or Maybe.....


Expository on one level to realize that such diversity could create in the person the ability to dream, and actualize image creation according to the information at hand, how illusionist indeed that "such shapes" can come out of such communications within that that hidden layer? How would such application be realized according to computerized development?

STEPHEN M. KOSSLYN

We had an old headboard, which was so rickety that it had to be leaned against a wall. This requirement was a constraint on the positioning of the headboard. The other pieces of furniture also had requirements (constraints) on where they could be placed.Constraint Satisfaction

How "large" the point/synapse, how large the room, how the large the universe? It's just a word. But it's culpability of "dimensional significance" is the ultimate picture that comes out of the resulting fabrication from the hidden layers? Just as one might think of string theory and the real world?

Friday, January 21, 2011

String Theory and the Real World



To be sure, the majority of research into string theory is not focused on how the theory connects to the real world; rather, most physicists are exploring questions at a more theoretical level. Such formal work is necessary, because as noted above, we need a deeper understanding to fully formulate the theory. Even the many theorists who are interested in how string theory connects to the real world don’t typically think much about what it means to test the theory. Fortunately, an increasingly active group of “string phenomenologists” are focusing on formulating a string-based description of the world and testing that understanding. They are already making testable predictions, and will increasingly do so.String Theory and the Real World by Gordon Kane

I am one of those laymen besieged by the possibilities of wrong assumptions, even though I have been following this subject for many years now.

So,  given the understanding that this could be the case of course one should defer to the article in question, so as to get it from the mouth of an expert, then, to settle on not what I believe, as I have witnessed  many believed,  following the crowd of "so and so,"  as to having been undermined by a rhetoric that did String Theory little justice to the views that it would bestowed upon the world from that theoretical position.



I mean in regards to "that point" though,  isn't it that if you can see the issues in a different light,  it harbors the potential to seeing the whole subject of the science in a way that would  forge new pathways in neurological development that few had traveled and nurtured. So yes,  setting the framework does this by illuminating corners of thought, not had been given those freedoms to roam, is based on a foundation and supported thinking from that a theoretical position.

Orientation of Perspective

So yes you have to look at this according to the way in which one might approach using string theory as a "point of view" such as emergence arising in the matter of perspectives, as a final result to it's meaning? So, if you see me deluded, then how much more so of you, if such conclusion as a derivative of your thinking, is based on "consensus alone from a crowd speaking" and not from a perspective of such orientation, that one's spouting such ills toward, could have amount to a superficial excursionist comment without any meaning at all.

So it is the effort on my part, and has always been,  to see if such perspective could be engaged by  a perspective that could take me to a point of origins, that such thoughts are so as to see it's explanation  laid out in the image above. Not just of a point in space, as a part of a flowery representation of that point, but of one that can contain the potentials as a description of the world according to deep immersion of thinking and probing of that point.

So the cosmological expression is wrapped not only in the cosmological view of the universe,  but of the nature of the expression of the energy that manifests as particulate expressions of that energy. The entropic realization of a final state of expression about which such matters are inherent definitions of the way things are in our world.

Commonality of Expression

So comparative understanding of such theoretical development needs not only to be seen in the light of "high energy considerations" as  has been explained by Gordon Kane,  but for the phenomenological approach to determinations,  as expression of such abstract thought as having a place in the real world of matter defined things.

You write your mathematical descriptions of the world and see them in relation too? Why not use this perspective about the "expression of things"  projected toward as a evolution of things from "inside ourselves," as breaking the barrier of subtle expressions as finite things( our actions)?

That is it's potential you see,  "a point about which,"  I have reiterated over and over again about the possibilities as potentials as a standard in measure,  rigorous in it's implications,  and repeatable in it's determination as "recognizable in our actions" as such commonality of expression.  Demonstrative of approach,  toward the science of things.

See Also: Gordon Kane, string theory, and the real world

Friday, January 14, 2011

We Cannot Apply Constraints to Communication?

Is the public winners in decisions that "add more cost" to what should be access to "freedoms of information?"

The Cathedral and the Bizarre by Jeff Lewis

The problem there is that the 'capitalist trench' problem is just as real in OpenSource as it is in commerical product: once a group buys into a specific solution, the cost of changing grows with time. That's true even if the software is 'free' because the maintenance costs and time to convert to another solution are not (link now dead)

This entry is in my view, one of a correlating experience about what was once "Netscape and Microsoft and the platforms"  from which one could assume to operate their computers.
 



This was the battle between Microsoft and Netscape now under the title of the "Cathedral and the Bizarre,"  by Eric Raymond, now in book form. It wasn't so sometime ago as shown above when I read of this history under a Macopinion.com link.




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Steve Wozniak talks about the open Internet and net neutrality at the FCC

I was also taught that space, and the moon, were free and open. Nobody owned them. No country owned them. I loved this concept of the purest things in the universe being unowned.Steve Wozniak

Steve Wozniak - Steve Wozniak is a computer engineer who co-founded Apple Computer, Inc. with Steve Jobs. He created the Apple I and Apple II series computers in the mid-1970s. After earning the National Medal of Technology in 1985, Wozniak left Apple to work on various business and philanthropic ventures.

To whom it may concern:

The early Internet was so accidental, it also was free and open in this sense. The Internet has become as important as anything man has ever created. But those freedoms are being chipped away. Please, I beg you, open your senses to the will of the people to keep the Internet as free as possible. Local ISP's should provide connection to the Internet but then it should be treated as though you own those wires and can choose what to do with them when and how you want to, as long as you don't destruct them. I don't want to feel that whichever content supplier had the best government connections or paid the most money determined what I can watch and for how much. This is the monopolistic approach and not representative of a truly free market in the case of today's Internet.Steve Wozniak to the FCC: Keep the Internet Free

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An Open letter Concerning a Not-So-Open Internet

LETTER START
As I turn on my computer to begin this letter, I log into Windows and receive a notification that an update is available for Java. Something I’ve seen a hundred times before and never really given much thought to. But this time something else crosses my mind; how big is the update? How much data will be downloaded to my computer? I read each of the prompts that come up on my screen, a little more closely than previously, looking for some indication of file size, but I see nothing. I go ahead with the update, but not without some concern. The issue? Something as simple as a software update on my computer may actually end up costing me money.
The new Usage Based Billing systems coming into place with the big Internet Providers in Canada will mean a lot more restriction and monitoring of the things we do every day. Products we have already paid for, services we have already subscribed to (along with their monthly or annual bills) will now be subject to overage fees, adding more cost onto what we already pay. Where we could once pay a single monthly bill for our internet, we will now be paying not only the bill, but also the extra fees for having used more data than the Internet Service Providers think we should be using.
I have a few internet connected devices in my home aside from just a computer. Most Canadians would agree that a household with a single computer used simply for checking email and doing online banking is no longer the norm in our society. When most people hear talk of “large downloads” and Internet Providers cracking down on “excessive users”, to most this brings up thoughts of people using file sharing, or peer-to-peer programs to share music and movies across the internet. But with the prevalence of so many internet connected devices found in almost every home, and with legitimate online video and music streaming services being introduced, “large downloads” is something that now applies to everyone, whether they fully realize it or not.
I have an Xbox360. I use it to watch videos, play online multiplayer games with friends, download game demos, and to purchase and download full games through Microsoft’s Xbox Live service. As my monthly bandwidth allotment from my Internet Provider disappears, I will simply stop using it. I have already paid for my Xbox, the use of the online service through my Xbox Live Gold account, the games themselves, and for my internet access. With Usage Based Billing I will be expected to pay yet again if I don’t monitor my usage closely enough.
I should not be paying more for services that I already pay for.
This does not only apply to people with Xbox 360’s, but also to anyone with a Sony Playstation or a Nintendo Wii in their home. It would be safe to assume that the majority of people in this country that have an internet connection have at least one of these gaming devices in their home. Even if it’s in your son’s or daughter’s room and you never actually use it yourself, it’s the same as any other computer connected to your home network. We paid for them, in some cases we pay extra for the fuller online experience, and now we will be expected to pay yet again, each month, due to these new bandwidth restrictions. Higher monthly bills will result in people placing more restrictions on usage, watching their bandwidth meter, making sure they’ll be able to afford their internet bill for the month.
I don’t use it myself, but I know there are a number of people that purchase music, movies and television shows through Apple’s iTunes. Having paid for your videos, perhaps in High Definition format, downloading them, and then being charged again at the end of the month due to the size of the videos themselves, is completely unfair.
I subscribe to Netflix. I have been using it on both my home computers and my Xbox. Although now with the new changes coming into effect, when I find a movie on Netflix I want to watch, I’ll be checking to see how much more, on top of the fee I have already paid to Netflix, the movie might end up costing me. Again, paying more for services that I already pay for.
I use an online backup service called Crashplan. All of my computer files are backed up daily to their secure servers, leaving me the peace of mind that if our home was broken into or anything was destroyed in a fire, all of my files and programs would be safe. Already paying an annual fee for the service, I may well have to give up this peace of mind in order to keep my internet bill at an affordable level.
As an addition to this full online backup service, I also use a service called Dropbox. This enables me to keep certain files in sync across all of my computers, as well as my Smartphone. A very handy and reliable service, but also one that uses data over my home internet connection. Again, I pay an annual fee for this service, but may end up being charged even more on top of that as a result of the new Usage Based Billing.
I use Last.fm. This is an online radio service that customizes radio stations for me based on my listening habits. I sometime have it playing for most of the day as I do things around the house, but this will have to stop, as I can’t risk the constant data stream pushing my internet bill up and up.
I have friends that use VoIP services; Voice over IP (internet telephone, as opposed to the normal telephones most are familiar with). These services, such as Vonage and Skype, eliminate the need for an extra telephone bill in their homes, and provide long distance savings. But with the overage fees charged by the Internet Providers, they will no longer be the money saving services they were meant to be.
In addition to the PC’s, laptops, and the Xbox I have in my house, I also have a Smartphone. I recently made the switch to an Android based phone, but this will also apply to anyone who has an iPhone, Blackberry, or any other internet enabled phone that can connect to a Wi-Fi network. When at home I keep my phone connected to my home Wi-Fi. Anyone who has a Smartphone knows that these devices transmit a fair amount of data; keeping email, calendar and contacts in sync, various Apps that update in the background at set intervals, downloading new Apps, and, as with most Smartphone’s today, the majority are more than capable of streaming video from YouTube and a number of other online services. With the new Usage Based Billing, my phone is one more device connected to my network when at home, using up the limited bandwidth, and eventually costing me even more by the end of the month.
There are also certain things that are harder to control in our online world when it comes to data consumption; Windows Update is a perfect example. These are the fixes issued by Microsoft for their Windows Operating System that, in most people’s cases, download and install automatically in the background. The only User intervention required is after the updates are finished installing, you get that familiar prompt that your system needs to be restarted. And so the questions: how much data was downloaded during this process? If you were already very close to your monthly bandwidth allowance, did this push you over? Did these updates actually end up costing you more money? The last time I installed my copy of Microsoft Office (Word, Excel, PowerPoint and Outlook), I remember a number of updates being required through Windows Update, and they were not small in size. Having already purchased the software, I don’t believe I should be charged again for installing the necessary upgrades.
As careful as you might be in regards to the data being transferred in your household, making sure the next bill to come in is within the affordable range, things like background updates for your Operating System, as well as any Anti-Virus and Spyware programs you may be using (on each of the PC’s in your home, mind you), and other updates for any of the software installed on your computer, will also be added to your total data consumption. I’ll admit, these software updates, each on their own, are usually not very large, and so it would be easy to dismiss them. But when added together with the web surfing, online banking and shopping, emailing, Youtubing, Facebooking, video/audio streaming, online gaming (on PC or console), and all the other random data transfer that we have never really had to think too much about in the past, this adds up. And the higher the data consumption climbs, the higher the bill will be at the end of the month.
I certainly don’t like the idea, nor do I think it’s fair, that at the end of any given month, I might find myself very close to the bandwidth allotment given to me, and having to decide if uploading that new video to Facebook is worth an extra dollar or two on my internet bill, or having to weigh the cost of emailing the photos I took at Christmas to my family. Why should my Internet Provider get to cash in on things that are supposed to be free? I already pay for my internet access, as I always have, but now that will not be enough. In order to keep my bill at a reasonable level I will be expected to monitor the usage of every internet connected device in my home (including friends that might stop by with their laptop, netbook or Smartphone), and in some cases will be forced to eliminate certain things and cancel certain services altogether.
It is not too late to change this. As with this letter, there are ways of making sure people are informed about this issue and how, in the end, it will affect their daily lives. The companies and service providers, like the ones I mentioned above, should also be made aware, that if things continue down this road they will in fact be losing customers, as a lot of us will simply not be able to afford their services due to the extra fees being charged by our Internet Providers.
Our society is evolving. Online services and connected devices have become an integral part of our daily lives, for both work and pleasure. The cost of these devices and services is something we weigh at the time of purchase, but now there will be an additional factor to consider; how much more will I have to pay each month to my Internet Provider in order to use them?
If you're looking for a way to make this issue known, and to show your support, sign the Stop The Meter petition and encourage your contacts/customers to do the same.
Sign here:
http://StopTheMeter.ca
If you are a part of an organization please endorse and otherwise support the Stop The Media campaign. You can reach OpenMedia.ca, the organization running the campaign, by emailing: contact@openmedia.ca
D. Scott
This letter composed with Google Documents. Online. Using bandwidth.

Moon Base Alpha

This treaty became effective on January 27, 1967. As its name implies, the Outer Space Treaty prohibits placing into orbit around the Earth any objects carrying nuclear weapons or any other kinds of weapons of mass destruction, the installation of such weapons on celestial bodies, or their stationing in outer space in any other manner. Also forbidden are the establishment of military bases, installations, and fortifications; the testing of any type of weapons; and the conduct .

Glass?

NASA has once again landed on the lunar surface with the goal of colonization, research, and further exploration. Shortly after the return to the Moon, NASA has established a small outpost on the south pole of the moon called Moonbase Alpha. Utilizing solar energy and regolith processing, the moonbase has become self-sufficient and plans for further expansion are underway.

Moonbase Alpha Game ScreenShot -- Repairing the Life Support System
Moonbase Alpha Game ScreenShot -- Repairing the Life Support System
In Moonbase Alpha, you assume the exciting role of an astronaut working to further human expansion and research. Returning from a research expedition, you witness a meteorite impact that cripples the life support capability of the settlement. With precious minutes ticking away, you and your team must repair and replace equipment in order to restore the oxygen production to the settlement.

Team coordination along with the proper use and allocation of your available resources (player controlled robots, rovers, repair tools, etc.) are key to your overall success. There are several ways in which you can successfully restore the life support system of the lunar base, but since you are scored on the time spent to complete the task, you have to work effectively as a team, learn from decisions made in previous gaming sessions, and make intelligence decisions in order to top the leaderboards.

  "In Our Hands: The Moon"






Blogger Plato said...








Well Steven we know we need water if we are ever to establish a base. The support system for establishment of that base, require elements that can be found there, as they will be necessary for the foundation and support of "creating the place" in which to live. The property has to have some value. Who is to determine it's owner ship? So how one looks at the planets is to think about it's structure and what benefits can be gained from establishing locations for ventures further out into space. What it's gravity field looks like may aid in the determination of the mass and density of that planet n aiding the elemental determination of that structure? Colonization. I just thought if I was to gain from mining profits it would have to be for a reason in order to get my capital expenses out of such an investment. Then, what mining and values understood in terms of those elements is to be able to look at the moon in such a way that such support for that colonization for the moon base is established. Is it a international mining company, then a private one? Who shall have the say over where such mining can or can't occur, if property rights are or are not given? Just some of the thoughts that have occurred for me. Best,
January 13,
NASA's Mini-SAR instrument, which flew aboard India's Chandrayaan-1 spacecraft, found more than 40 small craters with water ice. The craters range in size from 1 to 9 miles (2 to 15 km) in diameter. Although the total amount of ice depends on its thickness in each crater, it's estimated there could be at least 600 million metric tons of water ice. The red circles denote fresh craters; the green circle mark anomalous craters.  NASA
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Blogger Steven Colyer said...








Hi, Plato, Water, and air! In the long run I don't see that being as much of a problem as shelter from cosmic rays and solar radiation, which we can also solve. Air and water will have to be imported from Earth for the first century, maybe less. There's titanium oxide on the moon, right? That means oxygen. I'll make a deal with you. You can keep the titanium, I'll take the O2. With the O2 we'll get our air, and if we can locate some hydrogen we can combine that with the O2 to make water. And once someone gets off their duff and repeats Biosphere, except this time with less mistakes both managerial and engineering-wise of the first one, we'll recycle that stuff. For food: plants, and the small furry animals that love them. For shelter, the best news of late is that there are Caves on the moon! That's where we'll settle first. It'll sure save on excavation costs. Now, I know this will be pricey, but that hasn't stopped exploration before. We know who the Ferdinands and Isabellas of our day are, all that remains is to find the Columbuses, and I suspect there are no shortage of them either. And in any event, as Kennedy said, we won't go to the moon because it is easy, we will go to the moon because it is hard! A challenge! A goal. Goals are good. As a fringe benefit, we can solve the massive poverty problem here on Earth in doing this. Full employment for all humans is possible, provided we have a goal and people want to help. I have a cousin who worked at Grumman in the 60's - he was pretty darn proud to be one of the hundreds of thousands that allowed Neil and Buzz to step on our sister planet and return safely to the Earth. The Moon with it's 1/4th gravity will provide a saner place to build and launch a Mars mission one day. Also, in about 2 months we'll have a probe in orbit around planet Mercury. It's quite possible Mercury has more rich minerals and precious metals than any other planet, and if so, our successes on establishing a lunar base will be priceless in terms of experience to go after the Gold planet. Both seem equally hostile. So did North America back in the day, given the technology of those days, but, our ancestors conquered that eventually, eh? Yes they did, and we're the living proof. :-)
January 14, 2011 6:38 AM




Blogger Plato said...








Steven:There's titanium oxide on the moon, right? That means oxygen. You get my point well then that, "the elements" are factors that we have to take into consideration if the future of colonization has a step off point. The life cycle of a lunar impact and associated time and special scales. The LCROSS measurement methods are “layered” in response to the rapidly evolving impact environment. See: Impact:Lunar CRater Observation Satellite (LCROSS) So one must first plan for the expansion based on a blueprint for future generations. So you develop a research scenario based on the development and support of building such a base. As you have shown we are part way to the moon "so structure of habitation is and has already shown it can "withstand" through how such a design must be built on the moon. Of course first habitations is going to be the capsules in which it got us there. Metallurgic and refinement processes are developed for specific kinds of materials needed in the development of. Politics is an interesting question when it comes to how we want to move out toward space colonization, beyond the boundaries earth has to this date incorporated so as to benefit investment, while developing for all humankind? So is it a "public company" or "a private Corporation" through future developmental designs that shall lead the way? Best,
January 14, 2011 7:09 AM
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Blogger Plato said...








Extracting Oxygen from Moon Rocks If you have obtained a long term supply of elements specific, then how shall they be combined to support such a long stay? "A supply" for sure then. Best,
January 14, 2011 7:18 AM
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Blogger Steven Colyer said...








So is it a "public company" or "a private Corporation" through future developmental designs that shall lead the way? You handle the Legal end and I'll handle the Sales end. :-) As a tip though, what did it take to start up the Dutch East India Trading Company? It's in the History books, a not-small dose of which I believe you lawyers had to study in your undergraduate days. :-) Also, regarding Columbus. Was he really Italiano, or was he the Portuguese double-spy Salvador Fernandes Zarco, who played King John against Queen Isabella and King Ferdinand and vice versa, until he got the 3 ships he couldn't afford himself? And who then, on the high seas, ran into, got info from, then killed: John Cabot, the alleged REAL discoverer of the New World? Well, I don't know, sounds like conspiracy crackpottery to me, but however he did it, he sure got it done.




Blogger Plato said...








 








Steven: You handle the Legal end and I'll handle the Sales end. You have to lead first by example? At 9:11 AM, November 05, 2009, Steven:How can Quantum Gravity help? Transmutation. Once we know how matter and energy work on the smallest scales, Engineers should shortly thereafter learn how to turn Lunar titanium into any other form of matter we desire, and Newton's dream of Alchemy will finally be realized. Unfortunately I am embroiled in United States sovereignty claim because of the flag planted on the moon and various mirrors for measure as claims to land. Setting up the infrastructure like Christine said is first and foremost. An elementary consideration as to how we can support that community on the Moon and provide for manufacture and production is why my companies move to land claims of the Aristarchus Crater and Surrounding Region. If different countries can challenge Canada's sovereignty of it's north, then I should have no problem contesting any rights to United States sovereignty on the moon.:) If we as a global community dispense with such borders then as a community it then belongs to all people, not just "capitalistic control." I as a mining company will bequeath all my lands to such an endeavor. Best,
January 14, 2011 7:43 AM
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The Outer Space Treaty of 1967


Treaty on principles governing the activities of states in the exploration and use of outer space, including the moon and other celestial bodies.


Opened for signature at Moscow, London, and Washington on 27 January, 1967


THE STATES PARTIES. TO THIS TREATY,


INSPIRED by the great prospects opening up before mankind as a result of man's entry into outer space,

RECOGNIZING the common interest of all mankind in the progress of the exploration and use of outer space for peaceful purposes,


BELIEVING that the exploration and use of outer space should be carried on for the benefit of all peoples irrespective of the degree of their economic or scientific development,


DESIRING to contribute to broad international co-operation in the scientific as well as the legal aspects of the exploration and use of outer space for peaceful purposes,

BELIEVING that such co-operation will contribute to the development of mutual understanding and to the strengthening of friendly relations between States and peoples,


RECALLING resolution 1962 (XVIII), entitled "Declaration of Legal Principles Governing the Activities of States in the Exploration and Use of Outer Space", which was adopted unanimously by the United Nations General Assembly on 13 December 1963,


RECALLING resolution 1884 (XVIII), calling upon States to refrain from placing in orbit around the earth any objects carrying nuclear weapons or any other kinds of weapons of mass destruction or from installing such weapons on celestial bodies, which was adopted unanimously by the United Nations General Assembly on 17 October 1963,


TAKING account of United Nations General Assembly resolution 110 (II) of 3 November 1947, which condemned propaganda designed or likely to provoke or encourage any threat to the peace, breach of the peace or act of aggression, and considering that the aforementioned resolution is applicable to outer space,


CONVINCED that a Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, including the Moon and Other Celestial Bodies, will further the Purposes and Principles of the Charter of the United Nations,


HAVE AGREED ON THE FOLLOWING:


Article I


The exploration and use of outer space, including the moon and other celestial bodies, shall be carried out for the benefit and in the interests of all countries, irrespective of their degree of economic or scientific development, and shall be the province of all mankind.


Outer space, including the moon and other celestial bodies, shall be free for exploration and use by all States without discrimination of any kind, on a basis of equality and in accordance with international law, and there shall be free access to all areas of celestial bodies.


There shall be freedom of scientific investigation in outer space, including the moon and other celestial bodies, and States shall facilitate and encourage international co-operation in such investigation.


Article II


Outer space, including the moon and other celestial bodies, is not subject to national appropriation by claim of sovereignty, by means of use or occupation, or by any other means.


Article III

States Parties to the Treaty shall carry on activities in the exploration and use of outer space, including the moon and other celestial bodies, in accordance with international law, including the Charter of the United Nations, in the interest of maintaining international peace and security and promoting international co- operation and understanding.

Article IV


States Parties to the Treaty undertake not to place in orbit around the earth any objects carrying nuclear weapons or any other kinds of weapons of mass destruction, instal such weapons on celestial bodies, or station such weapons in outer space in any other manner.


The moon and other celestial bodies shall be used by all States Parties to the Treaty exclusively for peaceful purposes. The establishment of military bases, installations and fortifications, the testing of any type of weapons and the conduct of military manoeuvres on celestial bodies shall be forbidden. The use of military personnel for scientific research or for any other peaceful purposes shall not be prohibited. The use of any equipment or facility necessary for peaceful exploration of the moon and other celestial bodies shall also not be prohibited.


Article V

In carrying on activities in outer space and on celestial bodies, the astronauts of one State Party shall render all possible assistance to the astronauts of other States Parties.


Article VI

States Parties to the Treaty shall bear international responsibility for national activities in outer space, including the moon and other celestial bodies, whether such activities are carried on by governmental agencies or by non-governmental entities, and for assuring that national activities are carried out in conformity with the provisions set forth in the present Treaty. The activities of non- governmental entities in outer space, including the moon and other celestial bodies, shall require authorization and continuing supervision by the appropriate State Party to the Treaty. When activities are carried on in outer space, including the moon and other celestial bodies, by an international organization, responsibility for compliance with this Treaty shall be borne both by the international organization and by the States Parties to the Treaty participating in such organization.

Article VII


Each State Party to the Treaty that launches or procures the launching of an object into outer space, including the moon and other celestial bodies, and each State Party from whose territory or facility an object is launched, is internationally liable for damage to another State Party to the Treaty or to its natural or juridical persons by such object or its component parts on the Earth, in air space or in outer space, including the moon and other celestial bodies.


Article VIII


A State Party to the Treaty on whose registry an object launched into outer space is carried shall retain jurisdiction and control over such object, and over any personnel thereof, while in outer space or on a celestial body. Ownership of objects launched into outer space, including objects landed or constructed on a celestial body, and of their component parts, is not affected by their presence in outer space or on a celestial body or by their return to the Earth. Such objects or component parts found beyond the limits of the State Party of the Treaty on whose registry they are carried shall be returned to that State Party, which shall, upon request, furnish identifying data prior to their return.


Article IX


In the exploration and use of outer space, including the moon and other celestial bodies, States Parties to the Treaty shall be guided by the principle of co-operation and mutual assistance and shall conduct all their activities in outer space, including the moon and other celestial bodies, with due regard to the corresponding interests of all other States Parties to the Treaty. States Parties to the Treaty shall pursue studies of outer space, including the moon and other celestial bodies, and conduct exploration of them so as to avoid their harmful contamination and also adverse changes in the environment of the Earth resulting from the introduction of extraterrestrial matter and, where necessary, shall adopt appropriate measures for this purpose. If a State Party to the Treaty has reason to believe that an activity or experiment planned by it or its nationals in outer space, including the moon and other celestial bodies, would cause potentially harmful interference with activities of other States Parties in the peaceful exploration and use of outer space, including the moon and other celestial bodies, it shall undertake appropriate international consultations before proceeding with any such activity or experiment. A State Party to the Treaty which has reason to believe that an activity or experiment planned by another State Party in outer space, including the moon and other celestial bodies, would cause potentially harmful interference with activities in the peaceful exploration and use of outer space, including the moon and other celestial bodies, may request consultation concerning the activity or experiment.


Article X

In order to promote international co-operation in the exploration and use of outer space, including the moon and other celestial bodies, in conformity with the purposes of this Treaty, the States Parties to the Treaty shall consider on a basis of equality any requests by other States Parties to the Treaty to be afforded an opportunity to observe the flight of space objects launched by those States.


The nature of such an opportunity for observation and the conditions under which it could be afforded shall be determined by agreement between the States concerned.


Article XI


In order to promote international co-operation in the peaceful exploration and use of outer space, States Parties to the Treaty conducting activities in outer space, including the moon and other celestial bodies, agree to inform the Secretary-General of the United Nations as well as the public and the international scientific community, to the greatest extent feasible and practicable, of the nature, conduct, locations and results of such activities. On receiving the said information, the Secretary-General of the United Nations should be prepared to disseminate it immediately and effectively.

Article XII


All stations, installations, equipment and space vehicles on the moon and other celestial bodies shall be open to representatives of other States Parties to the Treaty on a basis of reciprocity. Such representatives shall give reasonable advance notice of a projected visit, in order that appropriate consultations may be held and that maximum precautions may be taken to assure safety and to avoid interference with normal operations in the facility to be visited.

Article XIII


The provisions of this Treaty shall apply to the activities of States Parties to the Treaty in the exploration and use of outer space, including the moon and other celestial bodies, whether such activities are carried on by a single State Party to the Treaty or jointly with other States, including cases where they are carried on within the framework of international inter-governmental organizations.


Any practical questions arising in connexion with activities carried on by international inter-governmental organizations in the exploration and use of outer space, including the moon and other celestial bodies, shall be resolved by the States Parties to the Treaty either with the appropriate international organization or with one or more States members of that international organization, which are Parties to this Treaty.


Article XIV


1. This Treaty shall be open to all States for signature. Any State which does not sign this Treaty before its entry into force in accordance with paragraph 3 of this Article may accede to it at any time.
2. This Treaty shall be subject to ratification by signatory States. Instruments of ratification and instruments of accession shall be deposited with the Governments of the United Kingdom of Great Britain and Northern Ireland, the Union of Soviet Socialist Republics and the United States of America, which are hereby designated the Depositary Governments.
3. This Treaty shall enter into force upon the deposit of instruments of ratification by five Governments including the Governments designated as Depositary Governments under this Treaty.
4. For States whose instruments of ratification or accession are deposited subsequent to the entry into force of this Treaty, it shall enter into force on the date of the deposit of their instruments of ratification or accession.
5. The Depositary Governments shall promptly inform all signatory and acceding States of the date of each signature, the date of deposit of each instrument of ratification of and accession to this Treaty, the date of its entry into force and other notices.
6. This Treaty shall be registered by the Depositary Governments pursuant to Article 102 of the Charter of the United Nations.


Article XV


Any State Party to the Treaty may propose amendments to this Treaty. Amendments shall enter into force for each State Party to the Treaty accepting the amendments upon their acceptance by a majority of the States Parties to the Treaty and thereafter for each remaining State Party to the Treaty on the date of acceptance by it.


Article XVI


Any State Party to the Treaty may give notice of its withdrawal from the Treaty one year after its entry into force by written notification to the Depositary Governments. Such withdrawal shall take effect one year from the date of receipt of this notification.

Article XVII


This Treaty, of which the Chinese, English, French, Russian and Spanish texts are equally authentic, shall be deposited in the archives of the Depositary Governments. Duly certified copies of this Treaty shall be transmitted by the Depositary Governments to the Governments of the signatory and acceding States.


IN WITNESS WHEREOF the undersigned, duly authorised, have signed this Treaty.
DONE in triplicate, at the cities of London, Moscow and Washington, the twenty-seventh day of January, one thousand nine hundred and sixty-seven.

Stephen J. Garber, NASA History Web Curator

***

Space entrepreneur Robert Bigelow (left) discusses layout plans of the company's lunar base with Eric Haakonstad, one of the Bigelow Aerospace lead engineers.
PS Update: Back to the Moon, This Time to Stay
 

Thursday, January 13, 2011

Intricacies of Perspective

"Thus (through perspective) every sort of confusion is revealed within us; and this is that weakness of the human mind on which the art of conjuring and of deceiving by light and shadow and other ingenious devices imposes, having an effect upon us like magic... And the arts of measuring and numbering and weighing come to the rescue of the human understanding—there is the beauty of them—and the apparent greater or less, or more or heavier, no longer have the mastery over us, but give way before calculation and measure and weight?"Plato's Republic

Above and Beyond Culturomics

Google's Ngram Viewer


Click on Image




Web Semantics: Google Books Culturomics

  • 10:25 pm  | 
  • Categories: Web Semantics

http://blogs.discovermagazine.com/notrocketscience/2010/12/16/the-cultural-genome-google-books-reveals-traces-of-fame-censorship-and-changing-languages/
“Just as petrified fossils tell us about the evolution of life on earth, the words written in books narrate the history of humanity. They words tell a story, not just through the sentences they form, but in how often they occur. Uncovering those tales isn’t easy – you’d need to convert books into a digital format so that their text can be analysed and compared. And you’d need to do that for millions of books.
“Fortunately, that’s exactly what Google have been doing since 2004. Together with over 40 university libraries, the internet titan has thus far scanned over 15 million books, creating a massive electronic library that represents 12% of all the books ever published. All the while, a team from Harvard University, led by Jean-Baptiste Michel and Erez Lieberman Aiden have been analysing the flood of data.See:Beyond The Beyond Just another WordPress weblog


No Wikipedia entry on Culturomics so it makes it difficult to piece together the inception other then to follow the originators algorithm to it's beginnings and go from there?


We constructed a corpus of digitized texts containing about 4% of all books ever printed. Analysis of this corpus enables us to investigate cultural trends quantitatively. We survey the vast terrain of "culturomics", focusing on linguistic and cultural phenomena that were reflected in the English language between 1800 and 2000. We show how this approach can provide insights about fields as diverse as lexicography, the evolution of grammar, collective memory, the adoption of technology, the pursuit of fame, censorship, and historical epidemiology. "Culturomics" extends the boundaries of rigorous quantitative inquiry to a wide array of new phenomena spanning the social sciences and the humanities. Quantitative Analysis of Culture Using Millions of Digitized Books

With "trajectories" in mind, what purpose the environment with which controls are placed to consider, an aspect of a book,  as it has been measured over a series of times according to how similarity has been collected according to the timing that had occurred in relevance to the years it has been used?

Artistic renditions,  like Dali in his Crucifixion taken to the decic> "Nth degree", was a geometrical signature of what could be "raised from his thinking mind" about the beyond?

Something beyond the boundaries of that thinking as a matter of speaking. A formatted aspect of the gravity of that wording to detail all that process is contained to that environment alone. No something happens to the way you are contained in that thinking even though they say there are tight controls scientifically?

Wednesday, January 12, 2011

Understanding a Perspective About Color of Gravity

If we can help ourselves see the world in "new ways" why not allow ourselves such freedoms? See how it extends our views on what we have always "thought about" moves us beyond "the way" in which we have measured all things?


To “hear” the data we can map physical properties (The Data) to audible properties (The Sound) in pretty much any way we choose. For a physicist, an obvious way to do this might be to map speed to pitch. I think this is obvious for a physicist because both of these things are measured “per second” (pitch or frequency is measured in Hertz, which means vibrations per second). But we don’t have to do the obvious, we can map any physical property to any audible property.

In this example I’m going to map speed to the pitch of the note, length/postion to the duration of the note and number of turns/legs/puffs to the loudness of the note.

Now I have to choose starting positions and ranges. When I do this I have to consider that:
How to make sound out of anything.

Friday, January 07, 2011

Crab Nebula


This is a mosaic image, one of the largest ever taken by NASA's Hubble Space Telescope of the Crab Nebula, a six-light-year-wide expanding remnant of a star's supernova explosion. Japanese and Chinese astronomers recorded this violent event nearly 1,000 years ago in 1054, as did, almost certainly, Native Americans.

The orange filaments are the tattered remains of the star and consist mostly of hydrogen. The rapidly spinning neutron star embedded in the center of the nebula is the dynamo powering the nebula's eerie interior bluish glow. The blue light comes from electrons whirling at nearly the speed of light around magnetic field lines from the neutron star. The neutron star, like a lighthouse, ejects twin beams of radiation that appear to pulse 30 times a second due to the neutron star's rotation. A neutron star is the crushed ultra-dense core of the exploded star.

The Crab Nebula derived its name from its appearance in a drawing made by Irish astronomer Lord Rosse in 1844, using a 36-inch telescope. When viewed by Hubble, as well as by large ground-based telescopes such as the European Southern Observatory's Very Large Telescope, the Crab Nebula takes on a more detailed appearance that yields clues into the spectacular demise of a star, 6,500 light-years away.

The newly composed image was assembled from 24 individual Wide Field and Planetary Camera 2 exposures taken in October 1999, January 2000, and December 2000. The colors in the image indicate the different elements that were expelled during the explosion. Blue in the filaments in the outer part of the nebula represents neutral oxygen, green is singly-ionized sulfur, and red indicates doubly-ionized oxygen.

***

January 6, 2011 - Fermi's Large Area Telescope Sees Surprising Flares in Crab Nebula

Each of the two flares the LAT observed lasted a few days before the Crab Nebula's gamma-ray output returned to more normal levels. According to Funk, the short duration of the flares points to synchrotron radiation, or radiation emitted by electrons accelerating in the magnetic field of the nebula, as the cause. And not just any accelerated electrons: the flares were caused by super-charged electrons of up to 1015 electron volts, or 10 quadrillion electron volts, approximately 1,000 times more energetic than the protons accelerated by the Large Hadron Collider in Europe, the world's most powerful man-made particle accelerator, and more than 15 orders of magnitude greater than photons of visible light.
"The strength of the gamma-ray flares shows us they were emitted by the highest-energy particles we can associate with any discrete astrophysical object," Funk said. January 6, 2011 - Fermi's Large Area Telescope Sees Surprising Flares in Crab Nebula-Date Issued: January 6, 2011 Contact: Melinda Lee, SLAC Media Manager

Lessons in Life

 For me there has to be a beginning for any object of presentation,  so that the understanding fully incorporates how one is looking at say "our skies historically" can be the seed of what matures tomorrow. While that process and it's unfolding can be months in the making, it must for me have an imprint of where it came from, so that anything that matures out of it, can be understood in the context of the way in which I might want to write my story.

This  does not mean and shall never mean,  it becomes the story of Clifford's and has any relation to anything he writes.

 This is necessary for me in order to progress through time, to ultimately see how "artistically describing" can lead one to a fuller comprehension of the seriousness of the task at hand.

For me, as a tracker, I am looking for the seeds of such designs. How such projects can come to mind, just as much as,  theoretical ideas can manifest from all that has come before it. It must follow the rules of science in order for the theoretical to have ever materialized right?

 ***

Anish Kapoor chosen for landmark 2012 sculpture --


Image of Orbit Image by ARUP
 Artistic renditions must "like science articles" abide by the science as we know it. That it is displayed properly in nature, as it is so written by equatorial discriptions?

If you followed the topic of a  post  entry by Clifford you sort of get the  picture by the question he raises.   He said,
"Now, while looking at the picture above, I noticed something interesting. Is it just me, or is the sky wrong? I don’t mean that it is blue and over London and therefore a contradiction (droll, but not even close to the truth). Look at the shadow of the Thing (called The Orbit, I think), and look at the pattern of the blue in the sky." Stairway to Heaven- Published by Clifford on March 31, 2010

So if are your bit of a perfectionist, find yourself dreaming of a project that will certainly display the issues of "artistic rendition" as shown in the article of the Orbit's Skies,   I saw Clifford correlating the process and elaboration of his current project,  as it was listed by links below..


The Project - 1-

The Project - 2-

The Project - 3-

Constructing-

Blacklines -


I want to quickly take you to the Blog posting that was important for me , knowing full well all the subsequent posts written by Clifford are leading up to what started as the lesson for me, now looking at the beginning,  as I have proposed from my perspective, has now come to fruition, as a project of much importance.

But first you must know something about the shadows, how important to me, and how these are markers in the truest sense of the word so as to reveal where the sun is , as well as how one may look at the sky  in accordance with the principals of science.

***

So you have to go back to the very beginning of the Post called Stairway to Heaven by Clifford to understand what I have always known, and what has preoccupied my time many years ago. It is necessary to see the comment made to understand the relevance I may ever have in comments according to how a picture is perceived, how shadows are used to highlight perspective about objects, or, about how objects them self cast such shadows.





I thought from a historical standpoint to today?

It’s all in the shading?:)I mean for instance, using architectural objects for telling time? Or marking locations.

Stefan of Backreaction had a nice blog posting about it placing one in New York.


Would this serve as an illustration “for picture analysis” in Stairway to Heaven? A relation too, the idea of Early Euclidean beginnings ‘of the geometries’ as a basis of “angle of determinations’ of the sun’s location?
Being Cryptic, is information that you don't have,  that one must have,  in order to complete the picture? If you do not ever have the experience, how are you ever to talk about a particular situation that needed explanation in the truest sense. So one might write about it, or draw in painting style according to his perception of it.

***

So after following the blog posting by Clifford, leading too, Paints , it was Jude that helped me to understand the perspective about the direction in which to look at Clifford's picture there.
As Jude pointed out, moving from the idea of suspension(Ele Munjeli) , toward actually “looking up” makes this very interesting three dimensional viewing of the location.
I like it because the “expansion of viewing,” from a different perspective is realized, whether it was your intention or not.

If I did not have the information  I am giving you,  then it is but a simple lesson in life. A lesson, without the content of something much deeper and significant about that which drives it home. Helps one to fully grok the experience. So you try to emulate the experience, by writing, by painting? Creating a narrative about the lesson involved.

So by arriving at "Paints" you understand the creative artistic process that lead Clifford there.

 
I’m impressed with your drawing abilities.

The arena picture caught me of guard, as to the location of the sun, as the shadow was laid over the windows of the building. At first, it looked like I was looking right through the building at a completed structure through too…windows on the other side. Is there another building across from it, or in the same direction as the shadow?

Should one line up the shadow of the building with the woman in blue’s shadow?

I know you tend to the ole ways, but I was wondering again about mouse overs for computer based images(sound, wording captions) how you are going to portray these discussions.
Again, wonderful creative process. It must have taken a lot of work.

But now in order to understand the lesson, not just of the shadows involved but the direction of where the sun is located in his picture. This is important not only in concert with the idea of the shadows, but of the very sky itself. As I looked up, the visualization was expansive.

In Paints, once understanding what I was actually looking at,  by looking up, who could have not caught the sun reflected on the side of the building. So for me, this was about finding the location of the Sun. Something else happened as well as I looked at the sky.  How well one needs to pay attention.  How else one is able to identify the location as it is represented in the sky?

There is a lot of  detail not only on the side of the building, but also on the differences of color detailed in the sky. It's really quite remarkable the attention to detail given, but also the attention given to artistic displayed of the science in nature on mathematically as it can be representative in the sky.

On Tuesday I had ended with a computation that is the essence of the reason the sky is blue, which is a nice enough thing to talk about, but today I wanted to go more in depth on the whole thing, and show that you can in a few steps show that the blueness has a particular pattern to it. I wrote out the final equations in a few steps and looked at them for a moment or two and realized that with the sun rising at that very moment, it was the perfect situation to have! So I went outside to enjoy the beautiful Autumn day and the beauty there is in seeing an equation writ large in the sky - and it really was all there.Blue Skies… Published by Clifford on October 29, 2009

Tuesday, January 04, 2011

Sonification

The lessons of history are clear. The more exotic, the more abstract the knowledge, the more profound will be its consequences." Leon Lederman, from an address to the Franklin Institute, 1995

BBC article-Click on Image
See Also: LHC sound

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Sonification is the use of non-speech audio to convey information or perceptualize data. Due to the specifics of auditory perception, such as temporal and pressure resolution, it forms an interesting alternative or complement to visualization techniques, gaining importance in various disciplines. It has been well established for a long time already as Auditory Display in situations that require a constant awareness of some information (e.g. vital body functions during an operation). Sonification as a method for exploration of data and scientific modeling is a current and ongoing research desideratum.

One of the first successful applications of sonification is the well-known Geiger counter, a device measuring ionizing radiation. The number and frequency of audible clicks are directly dependent on the radiation level in the immediate vicinity of the device.

Contents

Fields

Sonification is an interdisciplinary field combining:

Some existing applications and projects

Sonification techniques

Many different components can be altered to change the user's perception of the sound, and in turn, their perception of the underlying information being portrayed. Often, an increase or decrease in some level in this information is indicated by an increase or decrease in pitch, amplitude or tempo, but could also be indicated by varying other less commonly used components. For example, a stock market price could be portrayed by rising pitch as the stock price rose, and lowering pitch as it fell. To allow the user to determine that more than one stock was being portrayed, different timbres or brightnesses might be used for the different stocks, or they may be played to the user from different points in space, for example, through different sides of their headphones.

Many studies have been undertaken to try to find the best techniques for various types of information to be presented, and as yet, no conclusive set of techniques to be used has been formulated. As the area of sonification is still considered to be in its infancy, current studies are working towards determining the best set of sound components to vary in different situations.

Several different techniques for rendering auditory data representations can be categorized:

References

  1. ^ Thomas Hermann, Andy Hunt, and Sandra Pauletto. Interacting with Sonification Systems: Closing the Loop. Eighth International Conference on Information Visualisation (IV'04) : 879-884. Available: [1]. DOI= http://doi.ieeecomputersociety.org/10.1109/IV.2004.1320244.
  2. ^ Thomas Hermann, and Andy Hunt. The Importance of Interaction in Sonification. Proceedings of ICAD Tenth Meeting of the International Conference on Auditory Display, Sydney, Australia, July 6–9, 2004. Available: [2]
  3. ^ Sandra Pauletto and Andy Hunt. A Toolkit for Interactive Sonification. Proceedings of ICAD Tenth Meeting of the International Conference on Auditory Display, Sydney, Australia, July 6–9, 2004. Available: [3].

See also

External links


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Radar echos from Titan's surface

This recording was produced by converting into audible sounds some of the radar echoes received by Huygens during the last few kilometers of its descent onto Titan. As the probe approaches the ground, both the pitch and intensity increase. Scientists will use intensity of the echoes to speculate about the nature of the surface.

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Gravity is talking. LISA will listen.

The Cosmos sings with many strong gravitational voices, causing ripples in the fabric of space and time that carry the message of tremendous astronomical events: the rapid dances of closely orbiting stellar remnants, the mergers of massive black holes millions of times heavier than the Sun, the aftermath of the Big Bang. These ripples are the gravitational waves predicted by Albert Einstein's 1915 general relativity; nearly one century later, it is now possible to detect them. Gravitational waves will give us an entirely new way to observe and understand the Universe, enhancing and complementing the insights of conventional astronomy.
See:What Does Gravity Sound Like?

See Also: Gravitational Wave Detectors are Best Described as "Sounds.