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Enviado: 29/01/2019 15:47 |
11 DE SEPTIEMBRE O SEPTIEMBRE 11
11/9 O 9/11
Sapientia Aedificavit Sibi Domum. Es decir, "la sabiduría ha edificado aquí su casa". Resulta curioso que la misma frase aparece en el Evangelio de María Magdalena, un texto apócrifo. Se dice que en el interior de esta iglesia y de otras muchas de Venecia está escondido el tesoro de los templarios. Pero no hay ninguna prueba de ello. Para terminar ya con esta entrada me gustaría que nos acercásemos un momento a uno de los edificios más emblemáticos de Venecia: el Palacio Ducal.
La Maddalena
La Maddalena
Tomb of Tommaso Temanza
ISLA SAN GIORGIO (VENECIA)=GEORGE LEMAITRE
GEMATRIA EN INGLES DE SEED=33
GEMATRIA EN INGLES DE GATE=33
SARA (CE-SAREA DE FILIPO)=PARALELO 33
"¡Oh profundidad de las riquezas de la sabiduría (sophia) y de la ciencia (gnwsiV, gnosis) de Dios! ¡Cuán incomprensibles son sus juicios, e inescrutables sus caminos!" (Romanos, 11: 33).
25 DE ABRIL=DIA DE SAN MARCOS
22 DE JULIO=DIA DE MARIA LA MAGDALENA
the Apple
milky way in Simple Gematria Equals: 119 |
( |
m 13 |
i9 |
l 12 |
k 11 |
y 25 |
0 |
w 23 |
a1 |
y 25 |
) |
queen mary in Simple Gematria Equals: 119 |
( |
q 17 |
u 21 |
e5 |
e5 |
n 14 |
0 |
m 13 |
a1 |
r 18 |
y 25 |
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hebrew calendar in Simple Gematria Equals: 119 |
( |
h8 |
e5 |
b2 |
r 18 |
e5 |
w 23 |
0 |
c3 |
a1 |
l 12 |
e5 |
n 14 |
d4 |
a1 |
r 18 |
mary magdalene in Simple Gematria Equals: 119 |
( |
m 13 |
a1 |
r 18 |
y 25 |
0 |
m 13 |
a1 |
g7 |
d4 |
a1 |
l 12 |
e5 |
n 14 |
e5 |
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LLAVE DE ORO Y DE PLATA AL IGUAL QUE LA MANZANA
Incendio Notre Dame: Última hora de la catedral de París (15 DE ABRIL)
Incendio Notre Dame (París), en directo (Bertrand Guay / AFP)
PHI A NOTRE-DAME
A la catredal de Notre Dame hi observem més rectanlges auris: Creat per Mario Pastor
The DaVinci Code, Notre Dame Cathedral from DaVinci Code
original movie prop
August 23, 2018/
The Golden Section (aka Golden Mean, and Golden Ratio) phys.org
We use math in architecture on a daily basis to solve problems. We use it to achieve both functional and aesthetic advantages. By applying math to our architectural designs through the use of the Golden Section and other mathematical principles, we can achieve harmony and balance. As you will see from some of the examples below, the application of mathematical principles can result in beautiful and long-lasting architecture which has passed the test of time.
Using Math in Architecture for Function and Form
We use math in architecture every day at our office. For example, we use math to calculate the area of a building site or office space. Math helps us to determine the volume of gravel or soil that is needed to fill a hole. We rely on math when designing safe building structures and bridges by calculating loads and spans. Math also helps us to determine the best material to use for a structure, such as wood, concrete, or steel.
“Without mathematics there is no art.” – Luca Pacioli, De divina proportione, 1509
Architects also use math when making aesthetic decisions. For instance, we use numbers to achieve attractive proportion and harmony. This may seem counter-intuitive, but architects routinely apply a combination of math, science, and art to create attractive and functional structures. One example of this is when we use math to achieve harmony and proportion by applying a well-known principle called the Golden Section
Math and Proportion – The Golden Section
Perfect proportions of the human body – The Vitruvian Man – by Leonardo da Vinci.
We tend to think of beauty as purely subjective, but that is not necessarily the case. There is a relationship between math and beauty. By applying math to our architectural designs through the use of the Golden Section and other mathematical principles, we can achieve harmony and balance.
The Golden Section is one example of a mathematical principle that is believed to result in pleasing proportions. It was mentioned in the works of the Greek mathematician Euclid, the father of geometry. Since the 4th century, artists and architects have applied the Golden Section to their work.
The Golden Section is a rectangular form that, when cut in half or doubled, results in the same proportion as the original form. The proportions are 1: the square root of 2 (1.414) It is one of many mathematical principles that architects use to bring beautiful proportion to their designs.
Examples of the Golden Section are found extensively in nature, including the human body. The influential author Vitruvius asserted that the best designs are based on the perfect proportions of the human body.
Over the years many well-known artists and architects, such as Leonardo da Vinci and Michelangelo, used the Golden Section to define the dimensions and proportions in their works. For example, you can see the Golden Section demonstrated in DaVinci’s painting Mona Lisa and his drawing Vitruvian Man.
Famous Buildings Influenced by Mathematical Principles
Here are some examples of famous buildings universally recognized for their beauty. We believe their architects used math and the principals of the Golden Section in their design:
Parthenon
The classical Doric columned Parthenon was built on the Acropolis between 447 and 432 BC. It was designed by the architects Iktinos and Kallikrates. The temple had two rooms to shelter a gold and ivory statue of the goddess Athena and her treasure. Visitors to the Parthenon viewed the statue and temple from the outside. The refined exterior is recognized for its proportional harmony which has influenced generations of designers. The pediment and frieze were decorated with sculpted scenes of Athena, the Gods, and heroes.
Parthenon Golden Section
Notre Dame Cathedral in Paris
Built on the Ile de la Cite, Notre Dame was built on the site of two earlier churches. The foundation stone was laid by Pope Alexander III in 1163. The stone building demonstrates various styles of architecture, due to the fact that construction occurred for over 300 years. It is predominantly French Gothic, but also has elements of Renaissance and Naturalism. The cathedral interior is 427 feet x 157 feet in plan. The two Gothic towers on the west façade are 223 feet high. They were intended to be crowned by spires, but the spires were never built. The cathedral is especially loved for its three stained glass rose windows and daring flying buttresses. During the Revolution, the building was extensively damaged and was saved from demolition by the emperor Napoleon.
Notre Dame Cathedral in Paris
Taj Mahal
Built in Agra between 1631 and 1648, the Taj Mahal is a white marble mausoleum designed by Ustad-Ahmad Lahori. This jewel of Indian architecture was built by Emperor Shah Jahan in memory of his favorite wife. Additional buildings and elements were completed in 1653. The square tomb is raised and is dramatically located at the end of a formal garden. On the interior, the tomb chamber is octagonal and is surrounded by hallways and four corner rooms. Building materials are brick and lime veneered with marble and sandstone.
Taj Mahal designed by Ustad-Ahmad Lahori
As you can see from the above examples, the application of mathematical principles can result in some pretty amazing architecture. The architects’ work reflects eye-catching harmony and balance. Although these buildings are all quite old, their designs have pleasing proportions which have truly passed the test of time.
https://bleckarchitects.com/math-in-architecture/
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LLAVE DE ORO Y DE PLATA AL IGUAL QUE LA MANZANA
Incendio Notre Dame: Última hora de la catedral de París (15 DE ABRIL)
Incendio Notre Dame (París), en directo (Bertrand Guay / AFP)
PHI A NOTRE-DAME
A la catredal de Notre Dame hi observem més rectanlges auris: Creat per Mario Pastor
The DaVinci Code, Notre Dame Cathedral from DaVinci Code
original movie prop
HEXAGONO=OCTAHEDRO =ESTRELLA DE 6 PUNTAS= SATURNO =CUBO/HEXAGONO= ESPACIO/TIEMPO =1 DE REYES 6:20 Y APOCALIPSIS 21:16
EL SEXTO DIA ES EL VIERNES Y EL OCTAVO EL DOMINGO. INCREIBLE
August 23, 2018/
The Golden Section (aka Golden Mean, and Golden Ratio) phys.org
We use math in architecture on a daily basis to solve problems. We use it to achieve both functional and aesthetic advantages. By applying math to our architectural designs through the use of the Golden Section and other mathematical principles, we can achieve harmony and balance. As you will see from some of the examples below, the application of mathematical principles can result in beautiful and long-lasting architecture which has passed the test of time.
Using Math in Architecture for Function and Form
We use math in architecture every day at our office. For example, we use math to calculate the area of a building site or office space. Math helps us to determine the volume of gravel or soil that is needed to fill a hole. We rely on math when designing safe building structures and bridges by calculating loads and spans. Math also helps us to determine the best material to use for a structure, such as wood, concrete, or steel.
“Without mathematics there is no art.” – Luca Pacioli, De divina proportione, 1509
Architects also use math when making aesthetic decisions. For instance, we use numbers to achieve attractive proportion and harmony. This may seem counter-intuitive, but architects routinely apply a combination of math, science, and art to create attractive and functional structures. One example of this is when we use math to achieve harmony and proportion by applying a well-known principle called the Golden Section
Math and Proportion – The Golden Section
Perfect proportions of the human body – The Vitruvian Man – by Leonardo da Vinci.
We tend to think of beauty as purely subjective, but that is not necessarily the case. There is a relationship between math and beauty. By applying math to our architectural designs through the use of the Golden Section and other mathematical principles, we can achieve harmony and balance.
The Golden Section is one example of a mathematical principle that is believed to result in pleasing proportions. It was mentioned in the works of the Greek mathematician Euclid, the father of geometry. Since the 4th century, artists and architects have applied the Golden Section to their work.
The Golden Section is a rectangular form that, when cut in half or doubled, results in the same proportion as the original form. The proportions are 1: the square root of 2 (1.414) It is one of many mathematical principles that architects use to bring beautiful proportion to their designs.
Examples of the Golden Section are found extensively in nature, including the human body. The influential author Vitruvius asserted that the best designs are based on the perfect proportions of the human body.
Over the years many well-known artists and architects, such as Leonardo da Vinci and Michelangelo, used the Golden Section to define the dimensions and proportions in their works. For example, you can see the Golden Section demonstrated in DaVinci’s painting Mona Lisa and his drawing Vitruvian Man.
Famous Buildings Influenced by Mathematical Principles
Here are some examples of famous buildings universally recognized for their beauty. We believe their architects used math and the principals of the Golden Section in their design:
Parthenon
The classical Doric columned Parthenon was built on the Acropolis between 447 and 432 BC. It was designed by the architects Iktinos and Kallikrates. The temple had two rooms to shelter a gold and ivory statue of the goddess Athena and her treasure. Visitors to the Parthenon viewed the statue and temple from the outside. The refined exterior is recognized for its proportional harmony which has influenced generations of designers. The pediment and frieze were decorated with sculpted scenes of Athena, the Gods, and heroes.
Parthenon Golden Section
Notre Dame Cathedral in Paris
Built on the Ile de la Cite, Notre Dame was built on the site of two earlier churches. The foundation stone was laid by Pope Alexander III in 1163. The stone building demonstrates various styles of architecture, due to the fact that construction occurred for over 300 years. It is predominantly French Gothic, but also has elements of Renaissance and Naturalism. The cathedral interior is 427 feet x 157 feet in plan. The two Gothic towers on the west façade are 223 feet high. They were intended to be crowned by spires, but the spires were never built. The cathedral is especially loved for its three stained glass rose windows and daring flying buttresses. During the Revolution, the building was extensively damaged and was saved from demolition by the emperor Napoleon.
Notre Dame Cathedral in Paris
Taj Mahal
Built in Agra between 1631 and 1648, the Taj Mahal is a white marble mausoleum designed by Ustad-Ahmad Lahori. This jewel of Indian architecture was built by Emperor Shah Jahan in memory of his favorite wife. Additional buildings and elements were completed in 1653. The square tomb is raised and is dramatically located at the end of a formal garden. On the interior, the tomb chamber is octagonal and is surrounded by hallways and four corner rooms. Building materials are brick and lime veneered with marble and sandstone.
Taj Mahal designed by Ustad-Ahmad Lahori
As you can see from the above examples, the application of mathematical principles can result in some pretty amazing architecture. The architects’ work reflects eye-catching harmony and balance. Although these buildings are all quite old, their designs have pleasing proportions which have truly passed the test of time.
https://bleckarchitects.com/math-in-architecture/
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Posted on Apr 28, 2019
On March 19, 2109 The Galaxy reported that China was close to launching its “artificial sun” promising a future of ‘limitless clean energy –a Chinese “Green New Deal”. Unlike nuclear fission, fusion emits no greenhouse gases and carries less risk of accidents or the theft of atomic material.
The current Experimental Advanced Superconducting Tokamak (EAST) reactor in Hefei has created temperatures as hot as the interior of the sun. In November, it became the first facility in the world to generate 100 million degrees Celsius (212 million Fahrenheit)—six times as hot as the sun’s core. These mind-boggling temperatures are crucial to achieving sustainable nuclear fusion reactions, which promise an inexhaustible energy source.
“Stupendous” –China’s Leap to Space-Based Solar Power: ‘Will Beam Sun’s Energy Back to Earth’
“The artificial sun’s plasma is mainly composed of electrons and ions and the country’s existing Tokamak devices have achieved an electron temperature of over 100 million degrees C in its core plasma, and an ion temperature of 50 million C, and it is the ion that generates energy in the device,” said Dr Duan Xuru, an official at the China National Nuclear Corporation, according to China’s Global Times.
HL-2M Tokamak is expected to increase the electricity intensity from one mega amperes to three mega amperes, an important step to achieve nuclear fusion, a spokesperson surnamed Liu with the press office of the Southwestern Institute of Physics (SWIP), affiliated with China National Nuclear Corporation, told the Global Times.
“The Milky Way Base” –China Names First Human-Technology Landing Site on Moon’s Far Side
For instance, the deuterium (also known as heavy hydrogen) extracted from one liter of seawater releases the energy equivalent of burning 300 liters of gasoline in a complete fusion reaction, Liu said.
The “artificial sun” aims to release nuclear fusion in the same way as the sun by using deuterium and tritium (radioactive hydrogen-3), and finally generate electricity. It is clean energy that will not generate waste, which makes it ideal for people to use in the future, Liu said.
https://dailygalaxy.com/2019/04/earths-second-sun-chinas-fusion-future-the-holy-grail-of-unlimited-energy-weekend-feature/
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Posted on Apr 28, 2019
On March 19, 2109 The Galaxy reported that China was close to launching its “artificial sun” promising a future of ‘limitless clean energy –a Chinese “Green New Deal”. Unlike nuclear fission, fusion emits no greenhouse gases and carries less risk of accidents or the theft of atomic material.
The current Experimental Advanced Superconducting Tokamak (EAST) reactor in Hefei has created temperatures as hot as the interior of the sun. In November, it became the first facility in the world to generate 100 million degrees Celsius (212 million Fahrenheit)—six times as hot as the sun’s core. These mind-boggling temperatures are crucial to achieving sustainable nuclear fusion reactions, which promise an inexhaustible energy source.
“Stupendous” –China’s Leap to Space-Based Solar Power: ‘Will Beam Sun’s Energy Back to Earth’
“The artificial sun’s plasma is mainly composed of electrons and ions and the country’s existing Tokamak devices have achieved an electron temperature of over 100 million degrees C in its core plasma, and an ion temperature of 50 million C, and it is the ion that generates energy in the device,” said Dr Duan Xuru, an official at the China National Nuclear Corporation, according to China’s Global Times.
HL-2M Tokamak is expected to increase the electricity intensity from one mega amperes to three mega amperes, an important step to achieve nuclear fusion, a spokesperson surnamed Liu with the press office of the Southwestern Institute of Physics (SWIP), affiliated with China National Nuclear Corporation, told the Global Times.
“The Milky Way Base” –China Names First Human-Technology Landing Site on Moon’s Far Side
For instance, the deuterium (also known as heavy hydrogen) extracted from one liter of seawater releases the energy equivalent of burning 300 liters of gasoline in a complete fusion reaction, Liu said.
The “artificial sun” aims to release nuclear fusion in the same way as the sun by using deuterium and tritium (radioactive hydrogen-3), and finally generate electricity. It is clean energy that will not generate waste, which makes it ideal for people to use in the future, Liu said.
https://dailygalaxy.com/2019/04/earths-second-sun-chinas-fusion-future-the-holy-grail-of-unlimited-energy-weekend-feature/
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SECRETO MASONICO DETRAS DE LA "AGUJA DE CLEOPATRA" (EL MARCO/PUERTA/GATE TAMBIEN ES UN PORTAL ESPACIO/TIEMPO)
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Ever since major industrialized nations learned how to fuse atoms in megabombs able to blast scores of square miles to smithereens, the quest has been on to harness the vast potential energy store that is nuclear fusion as a viable means to peacefully fuel modern civilization.
Unlike fission, which involves the splitting of atomic nuclei, fusion both produces more energy while generating no radio-active waste. The primary fuel — H2 — is abundant and non-radioactive. Because conventional fusion reactors involve containment fields that force these non-radioactive elements together, they do not operate under dangerous conditions similar to nuclear fission reactors. The fusion reaction bi-products are also common, non-polluting elements together with a heat source used for mechanical work.
Fusion reactors aren’t vulnerable to the same kinds of terrible melt-downs seen at Fukushima and Chernobyl. And the energy density of the fusion reaction itself is extraordinary, producing a potential for very high energy returns on energy invested.
A world where an energy source of this quality is compact, economic, and widely available, is one within reach of a progression of advances and wonders. A human civilization with a growing capability to solve emerging problems involving a number of difficult limits.
The Quest for Viable Hot Fusion
As such, viable fusion is seen as a kind of holy grail energy source. And ever since the 1950s, engineers have been pursuing technical and cost effective means to harness it. For part of the problem in harnessing fusion was the highly energetic nature of the energy source itself.
To contain massive, hot, fusion reactions, magnetic plasma bottles were needed. Doughnut-shaped containment fields engineered to trap substances as hot as a sun. And the magnetic bottles themselves were energy-hungry beasts requiring major investment in infrastructure and materials.
The reactor facilities necessary to produce such high-energy bottles were massive, involving megawatts of energy for the magnetic fields that would contain the super-hot fusion reaction and its resultant plasmas. Such tokamak fields were very expensive to erect and maintain.
(Tokamak fusion reaction containment field. Image source: Commons.)
In most cases, more energy was needed to keep the fusion reaction in check than could be gleaned from the reaction overall. But slow and steady advances continued — primarily aimed at building a large enough containment vessel to glean a useful return on the energy dumped into the tokamak fields.
As the massive tokamak projects entered the 21st Century, a coalition of countries including the EU, the US, Russia and China, pooled efforts to construct the 23,000 ton ITER project. At a cost of $50 billion dollars US and growing, the project aims to provide a 10 to 1 energy return on energy invested by converting 50 megawatts of containment field energy into 500 megawatts of commercial energy. Such provision of a viable fusion energy store would, indeed, be a breakthrough and likely result in spin-off reactor technology if such offerings could be reproduced at relatively low-cost.
ITER plans to begin testing in 2020 and hopes to be online and producing energy by 2027.
It is worth noting, though, that the massive size and cost of projects like ITER serve to limit the likelihood that fusion energy will become commercially viable on any time horizon sooner than 20 years even if the energy production efforts are successful (although, one can well compare the 50 billion over decades cost of ITER with the $650 billion or greater annual cost of current ongoing oil and gas exploration).
Unexplained Experimental Results
For much of the mainstream scientific community, the large fusion plasma containment field projects like ITER serve as the only hope for a viable fusion energy source. But ever since the late 1980s, an underground science has developed around what was, at first, called cold fusion.
This fringe field emerged onto the world stage as an off-spring of work conducted and announced by Pons and Fleischmann in 1989. The two scientists provided reports observing a positive energy fusion reaction of deuterium occurring at low temperature in the presence of a relatively low-energy electrical current and a catalyst (palladium).
It was also a continuation of previous work by Graham, Paneth, Peters, and Tandberg during the 19th and early 20th Centuries. Most notably, Tandberg stated in 1927 that he had fused hydrogen into helium in an electrolytic cell with palladium electrodes. Ironically, this work was mostly unknown to Pons and Fleischmann at the time of their announcement.
Pons and Fleischmann’s paper rocked the scientific community — triggering an article about the researchers in Time Magazine and Congressional inquiries together with speculation that a dawn of a new energy era was at hand. Much of this speculation was fueled by the researchers, who provided extraordinary claims about the usefulness of the energy source they discovered.
But the Pons and Fleischmann experiment was a sketchy subject for observational proofs. For like Tandberg, who had a patent based on his experiment rejected on the notion that ‘he could not explain the physical process,’ Pons and Fleischmann found resistance due to the fact that their observations would upend most of what was currently understood about atomic physics — chiefly that it should take a massive amount of energy to fuse atomic particles.
Even more bedeviling, the experiment was difficult to reproduce. Sometimes, the positive heat energy reaction that Pons and Fleischmann reported was observed and sometimes it was not. This inconsistency continued to fuel doubt in the validity of this line of research.
Even worse, there was very little in the way of sound scientific theory that could explain what was actually going on inside the reaction chamber to produce the observed heat. Conventional atomic science couldn’t produce a mechanism for such a reaction. And so the observations hinged on convincing the gate keepers of conventional science that a loop-hole existed in atomic fusion theory. A rather high bar to cross.
Since no current accepted and peer-reviewed theory could explain the cold fusion reaction to make it viable, this lead to researchers in the field fighting off the label of ‘scientific pariah.’
Nonetheless, work continued on so-called cold fusion (now often labeled low energy nuclear reactions or LENR) at a number of government and commercial laboratories around the world. Japan, Italy, France, Israel, and the US all continued to conduct validation and observation experiments related to Pons and Fleischmann’s efforts. And a variety of commercial efforts also emerged — with some producing rather extraordinary but, as yet, still disputed claims.
Last year, a team of scientists produced an observational study of a controversial generator called the E-Cat which claimed to use LENR technology to produce excess energy. The study validated the claim, but, as with most LENR work, has received broad criticism. A second potential paper, produced by the same authors, was listed on a blog earlier this month. The draft has yet to appear in any of the major scientific libraries.
Lockheed Martin’s Compact Fusion
(Lockheed Martin working on experimental fusion design. Image source: Lockheed Martin.)
Until recently, commercial agencies working to develop fusion as a viable energy technology have split into two camps — the large corporations which have chiefly funded experimental efforts, and the small corporations like Rossi Energy which have been promising, but failing to deliver, viable LENR generators for the past few years.
Now, as of last week, Lockheed Martin has entered the fray by making an announcement that it aims to produce a commercially viable small fusion reactor within the next ten years.
Spear-headed by Skunk Works — the same group that produced the first stealth bomber and a number of other breakthrough technologies — the effort aims to have an experimental reactor off the ground within 5 years, military capable technology for ships, vehicles and aircraft within 10 years, and non-government/military reactors within less than 20 years.
The Lockheed Martin reactors are planned to be compact — small enough to fit in an 18 wheeler truck bed. These compact designs would produce a relatively large amount of energy — about 100 MW. Such a design could power a moderate sized city, allow an aircraft to fly indefinitely, be used to power larger vehicles, and serve as an energy source for ocean-going vessels. Such a small design would be less costly, more useful, and more easy to rapidly test, develop, and deploy.
(Lockheed Martin’s fusion reactor desing uses a layered plasma containment approach. Image source: Cosmos. Image credit: Anton Banulski.)
The key to Lockheed Martin’s smaller design is the creative use of older containment technologies. According to reports from lead Lockheed Martin scientists, the Skunk Works team is using a technique that involves a cusp confinement method — which uses ring-shaped electromagnets to contain the fusion plasma. The electromagnets generate a field that bulges in the middle. Magnetism pushes the fusion particles together. The further away from the fusion medium the particles stray, the greater the magnetic force pushing them back in.
In the 1970s, cusp confinement was found to be too leaky to produce a fusion reaction. Martin’s solution is to surround the cusp field with a second magnetic mirroring field — also a somewhat leaky field. However, another innovation by Lockheed Martin is to shunt escaped particles back into containment using a third field layer.
According to the, now anecdotal, reports from the initial research team, the experimental design features a viable fusion containment field using only 1 kilowatt of power. A claim that, if it bears out, could put this new design onto the cutting edge for fusion development, but would require quite a bit more testing to reach full power loads.
From a recent article in Cosmos:
McGuire said he and five to 10 researchers have been working for four years and have built their first experimental device. They carried out 200 test shots while commissioning it. He declined to say what temperature, density or confinement time they had achieved but he said the plasma appeared stable and they had heated it with up to one kilowatt of power.
A Big Corp to Take on the Fossil Fuel Giants?
As of yet, the Lockheed Martin announcement provides no scientific proofs (Lockheed says it has a scientific paper pending). And given the history of past fusion innovation claims, this prestigious company may well be taking a substantial risk in its early and apparently confident announcement. Some publications have already pointed out that LM is putting its reputation on the line.
That said, perhaps the entry of the prestigious Lockheed Martin corporation into the fast track for attempting to provide viable fusion technologies is a sign that some of these energy sources — whether Tokamak or LENR based — are on the verge of a period of breakthrough.
If so, what I wrote last year about fusion energy in Growth Shock may well apply:
Even if the first high hurdle of commercial viability is crossed, whatever industries provide fusion systems will have to survive competition with the wealthy, influential, and politically powerful fossil fuel industry. One can expect a similar campaign of disinformation, undermining, delaying and detracting that has been waged against the world’s solar, wind and biofuel industries. Misinformation and fear mongering are most likely to arise as soon as any announcement of commercial viability goes widely public. This second hurdle may well prove to be even higher than the first and oil, coal, gas and, possibly, traditional nuclear special interest groups may well join to keep this option in its bottle.
Before becoming overly optimistic, we must remember that both wind and solar energy showed great promise early on and have taken many decades fighting both real world limitations and entrenched special interests to gain the minor foothold they have now established. And these are both proven technologies that are in a vicious competition with the established smoke-stack interests. One would not expect much difference with fusion. If viable, it poses a greater threat than any current renewable energy system, so the opposition media campaign, in the event of publicly proven viability, would likely be shrill in the extreme.
But fusion technology may have a few strikes in its favor. Though it may well be disruptive to traditional fuel suppliers, it may not be as disruptive as current alternatives to traditional utilities. Most of the applications that the new fusion producers are attempting to license would be plug and play… fusion generators could directly replace those in coal, gas, and nuclear plants. The new infrastructure, essentially, is limited to a reaction chamber or boiler. And should fusion prove viable, this ‘plug and play’ aspect of the technology may prove to be a crucial advantage.
The compact nature of Lockheed’s prospective offering — 100 MW scale truck-sized reactors — should they emerge, could well be a critical fossil fuel replacement desperately needed in an age of ramping anthropogenic climate change. So let’s hope this is not a miss-fire on Lockheed’s part.
Links:
Compact Fusion
Is Lockheed’s Fusion Project Breaking New Ground?
Lockheed Developing Truck-Sized Nuclear Fusion Reactor
Growth Shock
Could Ultra-Cheap Energy be Just Around the Corner?
Tokamak
ITER
Cold Fusion
https://robertscribbler.com/tag/lockheed-martin/ |
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: Rolmen |
Enviado: 26/05/2019 13:40 |
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Soul, Body and Spirithttp://www.spirasolaris.ca/solexp3.htmlThe ALCHEMICAL Aspect
Quote:
In light of the above there seems little doubt that in general and in the present astronomical context in particular, Spira Solaris qualifies to be described numerically as "the One and the Many," the "One and the All," "the Alpha and the Omega," and also (from The Chaldean Oracles): "Fountain of Fountains, and of All Fountains, The Matrix of all Things." ..... Pythagoras said the sacred Tetractys is: ` the spring having the roots of ever-flowing nature.' .... The four parts of the Decad, this perfect number, are called number, monad, power and cube. And the interweavings and minglings of these in the origin of growth are what naturally completes nascent number; for when a power of a power; and a cube is multiplied on a cube, it is the power of a cube; and when a cube is multiplied on a cube, the cube of a cube; thus all numbers, from which arise the genesis of what arises, are seven: number, monad, power, cube, power of a power, power of a cube, and cube of a cube. ..... We have seen that the whole nature of things, all the essential properties of physis, were believed by the Pythagoreans to be contained in the tetractys of the decad; and it now appears that, just as we should expect, this ' fountain of ever-flowing nature' contains the periodic movement of life, evolving out of unity and reverting to unity again, in the recurrent revolution of a wheel of birth. It embodies the fundamental Dionysiac representation of palingenesia. But there is something more in it than this. Pythagoras inherited the music of Orpheus, as well as the reincarnation doctrine of Dionysus. From the Orphics he inherited also the doctrine of the fall of the soul from its first perfect state of union with the divine, its degradation into the darkness of this life and of the underworld, and its final restoration to peace and unity. Now, on the model of this doctrine of the fall of the soul, the Pythagorean philosophy must hold that all existence proceeds out of the One and returns to it again; and that the One alone is perfect, while the manifold world of visible body is a turbid medium of appearance, in which the one truth is half-revealed and half-concealed, as the divine soul is manifest in the flesh and yet obscured by it and degraded. There is thus, inherent in the representation handed down from Orphism to Pythagoras, not only the primitive wheel of birth, but another aspect of the movement of life, which is best described as a processional movement out of unity into plurality, out of light into darkness. This movement, also, must be revealed in the nature of numbers, and contained in the tetractys. Pythagoras found it in the procession of numerical series, the study of which he originated, thereby rounding the science of number. It is practically certain, also, that in music he discovered the ratios of the octave, the fifth, and the fourth, contained in the harmonic proportion 12: 8: 6. Now a progression like those contained in the tetractys of Plato's worldsoul --the series, 1: 2: 4: 8, 1: 3: 9: 27– is what the Pythagoreans called an harmonia; it is a continuous entity knit together by a principle of unity running through it, namely the logos or ratio (1/2 or 1/3) which links every term to its predecessor by the same bond. Both series, moreover, radiate from the One, which in Pythagorean arithmetic was not itself a number, but the source in which the whole nature of all numbers was gathered up and implicit. When we note, further, that every number is not only a many, but also one number, we can see how Pythagoras would find the whole movement of cosmic evolution contained in the procession of series, in which the One passes out of itself into a manifold, yet without losing all its unity, and a return from the many to the One is secured by that bond of proportion which runs, backwards and forwards, through the whole series and links it into a ' harmony.' It is thus that we must understand the doctrine that ' the whole Heaven is harmony and number.' The processional movement of physis is modelled upon that of soul, which falls from its first state of union with the divine, but yet remains linked to the One life by mysterious bonds, and can return to it again, purified by music. ...... As for the "geometric figure", that we may already have (whether applicable here or not) and although the concept of "organic motion" may strike some modern readers as strange, it is nevertheless an underlying feature in many ancient major works--the Timaeus of Plato especially. Here it may also be observed that by expressing the exponents of this short section of the Phi-series planetary framework in thirds, the sets [3, 6, 9 , [4, 8, 12] and [6, 12, 18] are also apparent--sets that may or may not be considered further with respect to other passages in Plato, etc. ...... It is in the same fashion that the Timaeus also tries to give a physical account of how the soul moves its body; the soul, it is there said, is in movement, and so owing to their mutual implication moves the body also. After compounding the soul-substance out of the elements and dividing it in accordance with the harmonic numbers, in order that it may possess a connate sensibility for 'harmony' and that the whole may move in movements well attuned, the Demiurge bent the straight line into a circle; this single circle he divided into two circles united at two common points; one of these he subdivided into seven circles. All this implies that the movements of the soul are identified with the local movements of the heavens. (Aristotle, On the Soul) ...... Mind is the monad, science or knowledge the dyad (because it goes undeviatingly from one point to another), opinion the number of the plane, sensation the number of the solid; the numbers are by him expressly identified with the Forms themselves or principles, and are formed out of the elements; now things are apprehended either by mind or science or opinion or sensation, and these same numbers are the Forms of things. Some thinkers, accepting both premises, viz. that the soul is both originative of movement and cognitive, have compounded it of both and declared the soul to be a self-moving number. (Aristotle, On the Soul) ...... Thus that in the soul which is called mind (by mind I mean that whereby the soul thinks and judges) is, before it thinks, not actually any real thing. For this reason it cannot reasonably be regarded as blended with the body: if so, it would acquire some quality, e.g. warmth or cold, or even have an organ like the sensitive faculty: as it is, it has none. It was a good idea to call the soul 'the place of forms', though (1) this description holds only of the intellective soul, and (2) even this is the forms only potentially, not actually. (Aristotle, On the Soul) ..... there will be a need for several sciences. The first and most important of them is likewise that which treats of pure numbers--not numbers concreted in bodies, but the whole generation of the series of odd and even, and the effects which it contributes to the nature of things. When all this has been mastered, next in order comes what is called by the very ludicrous name mensuration, but is really a manifest assimilation to one another of numbers which are naturally dissimilar, effected by reference to areas. Now to a man who can comprehend this, it will be plain that this is no mere feat of human skill, but a miracle of God's contrivance. Next, numbers raised to the third power and thus presenting an analogy with three-dimensional things. Here again he assimilates the dissimilar by a second science, which those who hit on the discovery have named stereometry [the gauging of solids], a device of God's contriving which breeds amazement in those who fix their gaze on it and consider how universal nature molds form and type by the constant revolution of potency and its converse about the double in the various progressions. The first example of this ratio of the double in the advancing number series is that of 1 to 2; double of this is the ratio of their second powers [ 4 ], and double of this again the advance to the solid and tangible, as we proceed from 1 to 8 [ 1, 2, 2^2, 2^3]; the advance to a mean of the double, that mean which is equidistant from lesser and greater term [the arithmetical], or the other mean [the harmonic] which exceeds the one term and is itself exceeded by the other by the same fraction of the respective terms--these ratios of 3 : 2 and 4 : 3 will be found as means between 6 and 2: why, in the potency of the mean between these terms [ 6 x 2 ], with its double sense, we have a gift from the blessed choir of the Muses to which mankind owes the boon of the play of consonance and measure, with all they contribute to rhythm and melody. So much, then, for our program as a whole. But to crown it all, we must go on to the generation of things divine, the fairest and most heavenly spectacle God has vouchsafed to the eye of man. And: believe me, no man will ever behold that spectacle without the studies we have described, and so be able to boast that he has won it by an easy route. Moreover, in all our sessions for study we are to relate the single fact to its species; there are questions to be asked and erroneous theses to be refuted. We may truly say that this is ever the prime test, and the best a man can have; as for tests that profess to be such but are not, there is no labor so fruitlessly thrown away as that spent on them. We must also grasp the accuracy of the periodic times and the precision with which they complete the various celestial motions, and this is where a believer in our doctrine that soul is both older and more divine than body will appreciate the beauty and justice of the saying that ' all things are full of gods ' and that we have never been left unheeded by the forgetfulness or carelessness of the higher powers. There is one observation to be made about all such matters. If a man grasps the several questions aright, the benefit accruing to him who thus learns his lesson in the proper way is great indeed; if he cannot, 'twill ever be the better course to call on God. Now the proper way is this--so much explanation is unavoidable. To the man who pursues his studies in the proper way, all geometric constructions, all systems of numbers, all duly constituted melodic progressions, the single ordered scheme of all celestial revolutions, should disclose themselves, and disclose themselves they will, if, as I say, a man pursues his studies aright with his mind's eye fixed on their single end. As such a man reflects, he will receive the revelation of a single bond of natural interconnection between all these problems. If such matters are handled in any other spirit, a man, as I am saying, will need to invoke his luck. We may rest assured that without these qualifications the happy will not make their appearance in any society; this is the method, this the pabulum, these the studies demanded; hard or easy, this is the road we must tread. (The Collected Dialogues of Plato) http://www.spirasolaris.ca/sbb4d.html |
1998 + ONEneo = 1999 http://en.wikipedia.org/wiki/The_Matrixhttp://en.wikipedia.org/wiki/Aztec_calendar_stonehttp://en.wikipedia.org/wiki/Theory_of_relativityhttp://en.wikipedia.org/wiki/Magic_squarehttp://en.wikipedia.org/wiki/Sierpinski_trianglehttp://www.davidicke.com/forum/showt...=61370&page=73http://www.spirasolaris.ca/sbb4d2c.htmlhttp://www.banksy.co.uk/http://edition.cnn.com/2013/10/28/us...ter-editorial/http://www.davidicke.com/forum/showp...postcount=1449
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Last edited by science2art; 02-11-2013 at 05:54 PM. Reason: Thatcheria mirabilis Spiral/911 "betrayal"
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