Saturday, July 09, 2011

My Hat's Off too: Open Hardware Movement

Sir Tim, creator of the World Wide Web, pointed to open data and linked data as exciting examples of the way that the Web is promoting transparency of information and looked forward to the time when the current 20 per cent of the world’s population who can access the Web grows to 80 per cent, with all the changes this will bring in terms of technological and social developments, and new possibilities of communication and cultural change.(bold added by me for emphasis)
Profiting from the Web has it's connotation here in this blog entry to mean, development of societies in regards to the knowledge based and development of individual to widen their boundaries of perspective.

Open Hardware Repository
"Designing in an open environment is definitely more fun than doing it in isolation, and we firmly believe that having fun results in better hardware." It is hard to deny that enthusiasm is inspiring and that it can be one of the factors in the success of any enterprise. The statement comes from the Manifesto of the Open Hardware Repository (OHR), which is defined by its creators as a place on the web where electronics designers can collaborate on open-hardware designs, much in the philosophy of the movement for open-source software. Of course, there is more to this than the importance of enthusiasm. Feedback from peers, design reuse and better collaboration with industry are also among the important advantages to working in an open environment.Hardware joins the open movement

Just have to legally read License application in order to see that it is actually a concerted effort to such establishment of an Open Internet agenda ? Why is this important?

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OHR Manifesto

The Open Hardware Repository is a place on the web for electronics designers to collaborate on open hardware designs, much in the philosophy of the free software movement. There are numerous advantages to working in a completely open environment:
  • Peer review. If you are a designer in a somewhat small team, or even alone, you can get very useful feedback from others by exposing your ideas in an open space. Chances are somebody has similar interests to yours and more experience.
  • Design reuse. The OHR has its origins (and initial scope) in the community of electronics designers working in experimental physics laboratories. One of its goals is to reduce the number of different teams working independently to solve the same problems, in order to make better systems with less time and effort.
  • Better collaboration with industry. The current business model for most commercial design companies is to keep the details of design secret. While this might maximize the margins of some companies it has no advantage for the customers. We believe that a business model based on companies designing in the OHR and getting paid for it is perfectly feasible, and would result in better products and the possibility for the customer to improve them and debug them more effectively.
  • Last but not least, designing in an open environment is definitely more fun than doing it in isolation, and we firmly believe that having fun results in better hardware.
There are two different areas in the OHR:
  • Project pages are under the responsibility of a given project leader. There are two requirements for any project to qualify for OHR support:
    • Everything needed to review and modify the design and to produce the final hardware must be published. This includes schematics and PCB layout in some human-readable open format, bill of materials, mechanical drawings, manufacturing files, etc. Submitting the electronics CAD files in case someone uses the same design software and wants to modify the design is also requested. A project leader is free to use any licensing scheme for a given design, provided it is compatible with the OHR goals stated in this document. Two good candidates for open design are the TAPR Open Hardware License and the CERN Open Hardware License.
    • The project must present an interest to the community of electronics designers for experimental physics facilities. This community being very wide and diverse, we don’t think this is a very troublesome constraint.
  • OHR Support is a specific project devoted to the OHR itself. It contains useful information for users and any issue on OHR usage can be reported there.
We hope that the OHR will be a worthy contribution to a change in design paradigms and practices towards more openness and quality. See: http://www.ohwr.org/
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CERN Open Hardware Licence

The CERN Open Hardware License was written for CERN designs hosted in the OHR and can also be used by any designer wishing to share design information using a license compliant with the OSHW definition criteria.

Access to the full text: CERN Open Hardware Licence.

It is important for "such distribution" to understand that the very development of internet through CERN and Sir Tim Berners-Lee as too, Cern being a birth place of internet. The origination of Internet Technologies as a development toward "advancing communication" other then corporate monopolistic control over the internet. Why,  non profit development detriment to not to consider it a  a right to all countries "access to information" with which to advance those societies?

To combat UBB and Vertical Integration. LHC development as a participation of many countries.

Cern must turn their views toward Canada and "current events" in order to understand the importance of such developments with regard to OHR Manifesto.If you can free the consumers/population in Canada then you can free the world to stopping advancing communications constraints and development toward a world population knowledge and developmental bottleneck..

Update: See Also: CERN brings hardware into the open

Make sure you check out the labels to learn some history

Friday, July 08, 2011

QGP Advances

Even the famous helium-3, which can flow out of a container via capillary forces, does not count as a perfect fluid.What black holes teach about strongly coupled particles by Clifford V. Johnson and Peter Steinberg....May of Last Year.

If helium-3 is used in cooling energy containment and was to be considered within LHC, wouldn't such example be applicable as to thinking about capillary routes as holes? Energy loss attributed too?

Layman wondering.


The notion of a perfect fluid arises in many fields of physics. The term can be applied to any system that is in local equilibrium and has negligible shear viscosity η. In everyday life, viscosity is a familiar property associated with the tendency of a substance to resist flow. From a microscopic perspective, it is a diagnostic of the strength of the interactions between a fluid’s constituents. The shear viscosity measures how disturbances in the system are transmitted to the rest of the system through interactions. If those interactions are strong, neighboring parts of the fluid more readily transmit the disturbances through the system (see figure 1). Thus low shear viscosities indicate significant interaction strength. The ideal gas represents the opposite extreme—it is a system with no interactions and infinite shear viscosity.


Perfect fluids are easy to describe, but few substances on Earth actually behave like them. Although often cited as a low-viscosity liquid, water in fact has a substantial viscosity, as evidenced by its tendency to form eddies and whorls when faced with an obstacle, rather than to flow smoothly as in ideal hydrodynamics. Even the famous helium-3, which can flow out of a container via capillary forces, does not count as a perfect fluid. What black holes teach about strongly coupled particles

The interesting thing for me as a layman  was about the theoretic in String Theory research is the idea of pushing perspective back in terms of the Microseconds. So for me it was about looking at collision processes and see how these may be applied to cosmological data as we look out amongst the stars.


At the recent seminar, the LHC’s dedicated heavy-ion experiment, ALICE, confirmed that QGP behaves like an ideal liquid, a phenomenon earlier observed at the US Brookhaven Laboratory’s RHIC facility. This question was indeed one of the main points of this first phase of data analysis, which also included the analysis of secondary particles produced in the lead-lead collisions. ALICE's results already rule out many of the existing theoretical models describing the physics of heavy-ions.
See: 2010 ion run: completed!


This is an important development in my view and I have been following for some time. The last contention in recognition for me was determinations of "the initial state" as to whether a Gas or a Fluid. How one get's there. This is phenomenologically correct as to understanding expressions of theoretic approach and application. Don't let anyone tell you different.

While we understand Microscopic blackholes quickly dissipate, it is of great interest that if such high energy collision processes are evident in our recognition of those natural processes, then we are faced with our own planet and signals of faster then light expressions through the mediums of earth?We have created many backdrops (Calorimeters) experimentally for comparisons of energy expressions. ICECUBE.

It is a really interesting story about the creation of our own universe in conjunction with experimental research a LHC


Our work is about comparing the data we collect in the STAR detector with modern calculations, so that we can write down equations on paper that exactly describe how the quark-gluon plasma behaves," says Jerome Lauret from Brookhaven National Laboratory. "One of the most important assumptions we've made is that, for very intense collisions, the quark-gluon plasma behaves according to hydrodynamic calculations in which the matter is like a liquid that flows with no viscosity whatsoever."

Proving that under certain conditions the quark-gluon plasma behaves according to such calculations is an exciting discovery for physicists, as it brings them a little closer to understanding how matter behaves at very small scales. But the challenge remains to determine the properties of the plasma under other conditions.

"We want to measure when the quark-gluon plasma behaves like a perfect fluid with zero viscosity, and when it doesn't," says Lauret. "When it doesn't match our calculations, what parameters do we have to change? If we can put everything together, we might have a model that reproduces everything we see in our detector." See:Probing the Perfect Liquid with the STAR Grid





Update:



Thursday, July 07, 2011

Atlas Experiment :Tile Calorimeter Barrel

Atlas Photos

The tile calorimeter will collect the energy released in the LHC's proton-proton collisions. Special plastic manufacturing techniques have been adapted to mass produce the ATLAS elements.




Monday, July 04, 2011

Strings 2011 in Uppsala, Sweden

Welcome to Strings 2011 in Uppsala, Sweden!

   Thanks to Lubos Motl for link too, "Jeff Harvey Summary Video" and of course,  the current state of String Theory. Of course conference has since past,  but hey, the information is great from many perspectives that were there.

Thursday, June 30, 2011

Tattoos

Let no one destitute of geometry enter my doors."
I never gave much thought to it before. I thought at this late stage in my life what affect could it possibly having coming now to the twilight years of my life? I have often thought of it over the years. While quite young and in the Armed Forces having gone through an intelligence program,  reference was made to identity markers and this had always stuck in my mind. But as I said that's not a issue. I now have set up an appointment.

So why that one? Regardless of it's age in terms of the Platonic solids...to me it is a foundational approach with which a mind thought to approach existence and reality of the world in which we live. So even if  it's not suitable from a lot of perspectives with regard to foundational approaches that is why I chose it as a descriptor, as it relates to the idea of geometries

One thing I noticed a lot about the young people that I have work around me is the different tattoos I have come to see on different individuals. As well as,  students who work along side for the summer months in order to make extra cash to help with their education. Help there parents with their educations.

Some of the most interesting were equations a young fellow had tattooed over his arms and back.

So I'll let you know come the time it is done. Any thoughts?

Cymascope



Vibration underpins all matter in the universe. No matter can exist without sound and vibration. To see the periodic motions that lie at the heart of matter is to lift the veils that conceal many mysteries of the universe. The CymaScope represents the first scientific instrument that can give us a visual image of sound and vibration - a cymatic image - helping us to understand our world and universe in ways previously hidden from view.

When the microscope and telescope were invented they opened vistas on realms that were not even suspected to exist.
Cymascope
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The sand collected in nodal lines producing symmetrical patterns similar to Hookes flour on the glass plate. It is also important to note that this influenced Faraday in thinking about lines of force in magnetic in his electrical experiments.




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Ernst Florens Friedrich Chladni

Born in Wittenburg in Germany, Chladni's Father demanded that he study Law not science. He obtained his law degree in 1782 from Leipzig. After the death of his Farther he vigorously pursued his career in science. Chladni achieved recognition for his pioneering work in the mathematical analysis of acoustics. This research was built on the early experiments of Robert Hooke at Oxford University. On July 8th 1680 Hooke formed the experiment of glass vibrating 6.4.8. places. This was done by putting flour on a glass plate, and bowing on the edge of glass. Hooke had observed that the motion of the glass was vibrate perpendicular to the surface of the glass, and that the circular figure of the flour changed into an oval one way, and the reciprocation of it changed it into an oval the other way. This phenomenon was rediscovered by Chladni in the eighteenth century, and given his name "Chladni figures". What Chladni did was to take thin metal plates and cover them with sand and caused them to vibrate. The sand collected in nodal lines producing symmetrical patterns similar to Hookes flour on the glass plate. It is also important to note that this influenced Faraday in thinking about lines of force in magnetic in his electrical experiments.

Wednesday, June 29, 2011

The Classical Education Movement Historical

Seal of the University of Pennsylvania from 1894 depicting the trivium as a stack of books providing the foundation for a quadrivium of mathematics, natural philosophy (empirical science), astronomy, and theology.
The Classical education movement advocates a form of education based in the traditions of Western culture, with a particular focus on education as understood and taught in the Middle Ages.
The term "classical education" has been used in English for several centuries, with each era modifying the definition and adding its own selection of topics. By the end of the 18th century, in addition to the trivium and quadrivium of the Middle Ages, the definition of a classical education embraced study of literature, poetry, drama, philosophy, history, art, and languages.[1] In the 20th and 21st centuries it is used to refer to a broad-based study of the liberal arts and sciences, as opposed to a practical or pre-professional program.[1]

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The subject of music within the quadrivium was originally the classical subject of harmonics, in particular the study of the proportions between the music intervals created by the division of a monochord. A relationship to music as actually practised was not part of this study, but the framework of classical harmonics would substantially influence the content and structure of music theory as practised both in European and Islamic cultures.
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By education, the divine essence of man may be unfolded, brought out, lifted into consciousness byFriedrich Fröbel
Sometimes one has to look behind a statement in order to see the depth that might be revealed and what the comment might be reacting too? So of course, I throw it out there,  to see what comes back.


Extra-Dimensions....What is Heaven Like?

Imagine a world with no Anti-Matter? No equatorial axiomatic expressions of the universe?:) Just plain, Dark and Dead.:) Walking over a bridge in visualization is escapism....while there exists another side to the question?
At 4:00 PM, June 25, 2011, Blogger Phil Warnell said... The book I mentioned previously is an attempted construction of what perhaps this would have turned out to be. What I find as ultimately interesting is that is for each having and maintaining a true dialogue is the most critical requirement of science and philosophy more generally. So although they had opposing views about the relevancy of the foundations in seeking the truth, each agreed about one key aspect of its methodology, which is not an axiom, yet required as a prerequisite before any can be postulated or denied there being necessity to do so.(Bold added for emphasis by me)
So while waiting for a response....it is understood that such "a schematic" was realized by this author for what may be expletive for that which reads,"which is not an axiom" as to reveal some bias by this author of discoveries about "deep play thinking." About subjects at hand, and the journey one might want to take.

It was found to reveal the "same geometrical tendencies" that are inherent in the quest for such truth's as to the wording of,  writing and visualizing to advance, reveals a topographical relationship with the world around us. Why if it can exist in such equatorial description cannot such a dialogue exist within self? Where did it begin?;)

This dance of sorts of leading to self evident questions and answers, that lead to any apprehension of position for which too,  rebuttal the world, and paint a picture there of. Off handed statements do reveal positions.


Sunday, June 26, 2011

A General Guide to Harmonic Analysis and Beyond


Thanks to Clifford of Asymptotia for the Link too, and from Good Vibration

Some of us do look toward these analogies as signs of Complexity science, so as to apply this thinking to the life they lead. How such implementations allow them to look at this life very differently.

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Each time the operator tuned to a new frequency, the wave was very simple and repetitive, just as above. This wave can be expressed by only two qualities: frequency and amplitude, and yet each new frequency created a new and many times surprisingly different result than it’s neighbor.

This phenomenon is analogous to all aspects of Complexity Science. And just like the simple rules set by the speaker in the video, an economy can achieve surprisingly complex results with simple rule sets.
Harmonic Science
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In classical mechanics, a harmonic oscillator is a system that, when displaced from its equilibrium position, experiences a restoring force, F, proportional to the displacement, x:
 F = -k x \,
where k is a positive constant.
If F is the only force acting on the system, the system is called a simple harmonic oscillator, and it undergoes simple harmonic motion: sinusoidal oscillations about the equilibrium point, with a constant amplitude and a constant frequency (which does not depend on the amplitude).
If a frictional force (damping) proportional to the velocity is also present, the harmonic oscillator is described as a damped oscillator. Depending on the friction coefficient, the system can:
  • Oscillate with a frequency smaller than in the non-damped case, and an amplitude decreasing with time (underdamped oscillator).
  • Decay exponentially to the equilibrium position, without oscillations (overdamped oscillator).
If an external time dependent force is present, the harmonic oscillator is described as a driven oscillator.

Mechanical examples include pendula (with small angles of displacement), masses connected to springs, and acoustical systems. Other analogous systems include electrical harmonic oscillators such as RLC circuits. The harmonic oscillator model is very important in physics, because any mass subject to a force in stable equilibrium acts as a harmonic oscillator for small vibrations. Harmonic oscillators occur widely in nature and are exploited in many manmade devices, such as clocks and radio circuits. They are the source of virtually all sinusoidal vibrations and waves.
Simple Harmonic Motion Frequency
The frequency of simple harmonic motion like a mass on a spring is determined by the mass m and the stiffness of the spring expressed in terms of a spring constant k

The Landscape “avant la lettre” by A.N. Schellekens

The lowest harmonics correspond to the particles of the Standard Model, plus perhaps a few new particles. The higher harmonics correspond to an infinite series of particles that we can never observe, unless we can build a Planck Energy accelerator


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See Also:

The Sound The Universe Makes

Cymatics and the Heart Song

Tuesday, June 21, 2011

The Sound The Universe Makes

As most know who have come to visit here at this Blog site, my fascination with the ways in which "sensationally" and internally one might look at the universe. So of course as long as the science is there in terms of how we are interpreting events. Then,  using the underlying mechanism of that interpretation,  so that it is universally applied,  then you get to see nature in different ways.

For example, in 1704 Sir Isaac Newton struggled to devise mathematical formulas to equate the vibrational frequency of sound waves with a corresponding wavelength of light. He failed to find his hoped-for translation algorithm, but the idea of correspondence took root, and the first practical application of it appears to be the clavecin oculaire, an instrument that played sound and light simultaneously. It was invented in 1725. Charles Darwin’s grandfather, Erasmus, achieved the same effect with a harpsichord and lanterns in 1790, although many others were built in the intervening years, on the same principle, where by a keyboard controlled mechanical shutters from behind which colored lights shne. By 1810 even Goethe was expounding correspondences between color and other senses in his book, Theory of Color. Pg 53, The Man Who Tasted Shapes, by Richard E. Cytowic, M.D.

As a reader,  you will also see if you look deeper into this blog the historical relation of humanity always seeking to define the way we can look at nature whether it is expressed musicianly or artistically. Is to identify this deep seated need to understand the cosmos in ways that we might not of considered.


5 types of ATLAS event shape data
The data is first processed using the vast and all-powerful ATLAS software framework. This allows raw data (streams of ones and zeroes) to be converted step-by-step into ‘objects’ such as silicon detector hits and energy deposits. We can reconstruct particles using these objects. The next step is to convert the information into a file containing two or three columns of numbers known as a "breakpoint file". It can also be used as a "note list". This kind of file can be read by compositional software such as the Composers Desktop Project (CDP) and Csound software used for this project. See: How is Data Converted into Sounds
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Janna Levin

I want to ask you all to consider for a second the very simple fact that, by far, most of what we know about the universe comes to us from light. We can stand on the Earth and look up at the night sky and see stars with our bare eyes. The Sun burns our peripheral vision, we see light reflected off the Moon, and in the time since Galileo pointed that rudimentary telescope at the celestial bodies, the known universe has come to us through light, across vast eras in cosmic history. And with all of our modern telescopes, we've been able to collect this stunning silent movie of the universe -- these series of snapshots that go all the way back to the Big Bang.
And yet, the universe is not a silent movie, because the universe isn't silent. I'd like to convince you that the universe has a soundtrack, and that soundtrack is played on space itself. Because space can wobble like a drum. It can ring out a kind of recording throughout the universe of some of the most dramatic events as they unfold. Now we'd like to be able to add to a kind glorious visual composition that we have of the universe a sonic composition. And while we've never heard the sounds from space, we really should, in the next few years, start to turn up the volume on what's going on out there. See: Janna Levin: The sound the universe makes
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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?

       Gravitational Wave Detectors are Best Described as "Sounds.

See Also: LHC sound

Monday, June 20, 2011

Body Self Perception

Body Self  Perception

For me it is sort of like trying to define the space around you and the depth perception one has of that space. It is also about location and whether awareness can pick up on other thing happening within that environment,
 while circumvented to the virtual reality.

This idea is one where I developed the term Topo-sense as a geometrical exercise of the awareness to move itself in complex organizational movements,  as if being lead by some geometrical mapping. Mathematically this seemed correlative in the construction of geometrical movements , as well "the archiving" and unfolding of geometrical form. Why Arizona might be of importance?

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"What's Your Law?"



Damasio's First Law The body precedes the mind.

Damasio's Second Law Emotions precede feelings.

Damasio's Third Law Concepts precede words.






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Michael Persinger has a vision - the Almighty isn't dead, he's an energy field. And your mind is an electromagnetic map to your soul.

It is necessary to look at the space around you understanding self awareness can extend itself into that space.

"The Mind is Inherently Embodied"

Our brains take their input from the rest of our bodies. What our bodies are like and how they function in the world thus structures the very concepts we can use to think. We cannot think just anything - only what our embodied brains permit."

I want science of course and all we are doing is playing with mind, and mapping the condensation result of mind at work in the biological system?

You see how one can change parameters, one can see things differently?

The inductive/deductive phase is really "an interaction" with the world around you. A topological change? Toposense? Turning yourself inside/out and back again.

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What we have learned

We have found consciousness can be described as an emergent property of the complex electromagnetic process generated from predictable biochemical and biological processes.
Although the terms soul and mind may have been useful at one time to describe this process, they are no longer required. They are more like the term "phlogiston" that was employed to describe why things burned before modern chemistry emerged. When there is no electrical current moving through the parts of a television, there is no picture. When the specific electromagnetic patterns are not generated within the brain structures there is no consciousness or awareness.

Some individuals with very different brain structures show different electromagnetic correlates that are associated with their ability to discern stimuli others cannot detect. Counter clockwise rotation of weak magnetic fields around the skull at specific rates of change (derivatives) can affect subjective time and allow the average person to experience many of the altered states reported by practitioners of mystical traditions as well as "paranormal" phenomena. The critical variables, like any chemical reaction, are the complexity and specificity of the temporal parameters. One component of consciousness may be "sequestered" within second or third derivatives of very narrow bands of changes in frequency within the theta range. Our calculations of resonance, based upon the power changes within quantitative electroencephalographic measures, suggest that one electromagnetic source of consciousness may actually exist within the 10 cm region outside of and surrounding the cranium.
Link now dead.

Of course one might want to be connected to how the parameters here in this blog were developed, so as to change how science currently does it?

Here again(your awareness of a red light bulb while in virtual reality can consciously penetrate) what you cannot see in the science of "in that space" is the interactive reality of what our emotions emit, or, what we demonstrate intellectually. Let's just say it is colored for emphasis, and that there is a method, just that we have not developed the science to see in such ways? "Not just the biological result of" looking through our measure fMRI?

With the parameter change given read these books and see how from my perspective things appear differently?  An alternate reality?

I am not saying you have to accept it, just that you look at the space I am talking about and how we may place light bulbs, as if to see if our conscious can penetrate through the virtual,  that it can exist outside of the body. This the central idea of what I am saying.

That the excelling of principle and your soul's desire for such perfection is ultimately contained within you and within the environment you work and live. Can exist in as a type of consciousness apart from the body itself.

While such generalizations are not accepted in science, it is food for thought that I give in consideration.