Pesquisaí

terça-feira, outubro 19

Sobre filmes e legendas

Sem muita filosofia neste artigo.

É vergonhoso para quem legenda os filmes e os batiza em português a qualidade do trabalho que fazem, criando um circo que impede, na dinâmica temporal, a própria sobrevivência destes devassos -aqui insinuando a não-idiotice dos técnicos responsáveis. A revolta tem explicação, e pano para uma coleção inteira de frankesteins moldados para o puro prazer destituído de racionalidade ou, melhor dizendo, de denominadores infantis.

A de hoje foi pelo filme de nome "Lonely Hearts".


Este filme, inspirado em uns assassinos em série e adicionados de outras faces de corações solitários em todos os personagens que constituem esta cinegrafia, foi traduzida para o português com o nome "Os fugitivos".

A pergunta que não quer calar: Se nem todos no filme eram fugitivos, como as viúvas que tinham coração só e eram as vítimas do casal perverso, e havia até nos fugitivos a corrida para a felicidade ou a saciedade, simbolizando muito mais o coração vazio do que uma fuga em si - penso isto com ainda algum tipo de inteligência no batismo da película, já que um coração só tem relação com algum tipo de fuga- porque um novo batismo com o apelo mais circense do que meditativo, como o filme foi originalmente batizado?

É grotesco e um trabalho de muito mal gosto. Quando eu tinha estômago mais fraco sentia náuseas de tal conjuração. Ou idiotice. Mas não entendo quem entende o mundo sem inteligência.

segunda-feira, outubro 18

Energia sustentável com Arte




Wind Power Without the Blades: Big Pics
By Alyssa Danigelis

Noise from wind turbine blades, inadvertent bat and bird kills and even the way wind turbines look have made installing them anything but a breeze. New York design firm Atelier DNA has an alternative concept that ditches blades in favor of stalks. Resembling thin cattails, the Windstalks generate electricity when the wind sets them waving. The designers came up with the idea for the planned city Masdar, a 2.3-square-mile, automobile-free area being built outside of Abu Dhabi. Atelier DNA’s “Windstalk” project came in second in the Land Art Generator competition a contest sponsored by Madsar to identify the best work of art that generates renewable energy from a pool of international submissions.
The proposed design calls for 1,203 “stalks,” each 180-feet high with concrete bases that are between about 33- and 66-feet wide. The carbon-fiber stalks, reinforced with resin, are about a foot wide at the base tapering to about 2 inches at the top. Each stalk will contain alternating layers of electrodes and ceramic discs made from piezoelectric material, which generates a current when put under pressure. In the case of the stalks, the discs will compress as they sway in the wind, creating a charge.

“The idea came from trying to find kinetic models in nature that could be tapped to produce energy,” explained Atelier DNA founding partner Darío Núñez-Ameni.

In the proposal for Masdar, the Windstalk wind farm spans 280,000 square feet. Based on rough estimates, said Núñez-Ameni the output would be comparable to that of a conventional wind farm covering the same area.

“Our system is very efficient in that there is no friction loss associated with more mechanical systems such as conventional wind turbines,” he said.
Each base is slightly different, and is sloped so that rain will funnel into the areas between the concrete to help plants grow wild. These bases form a sort of public park space and serve a technological purpose. Each one contains a torque generator that converts the kinetic energy from the stalk into energy using shock absorber cylinders similar to the kind being developed by Cambridge, Massachusetts-based Levant Power .

Wind isn’t constant, though, so Núñez-Ameni says two large chambers below the whole site will work like a battery to store energy. The idea is based on existing hydroelectric pumped storage systems. Water in the upper chamber will flow through turbines to the lower chamber, releasing stored energy until the wind starts up again.
The top of each tall stalk has an LED lamp that glows when the wind is blowing -- more intensely during strong winds and not all when the air is still. The firm anticipates that the stalks will behave naturally, vibrating and fluttering in the air.

“Windstalk is completely silent, and the image associated with them is something we're already used to seeing in a field of wheat or reeds in a marsh. Our hope is that people living close to them will like to walk through the field -- especially at night -- under their own, private sky of swarming stars,” said Núñez-Ameni.

After completion, a Windstalk should be able to produce as much electricity as a single wind turbine, with the advantage that output could be increased with a denser array of stalks. Density is not possible with conventional turbines, which need to be spaced about three times the rotor's diameter in order to avoid air turbulence. But Windstalks work on chaos and turbulence so they can be installed much closer together, said Núñez-Ameni.

Núñez-Ameni also reports that the firm is currently working on taking the Windstalk idea underwater. Called Wavestalk, the whole system would be inverted to harness energy from the flow of ocean currents and waves. The firm’s long-term goal is to build a large system in the United States, either on land or in the water. 
http://news.discovery.com/tech/wind-power-without-the-blades.html

Copiado-colado de um grande grupo de nome AcephalicSwines, frequentado por uma galera da pesada.

Femmes



das bagunças insones, de Srta. D.

Haute "Funk" Couture



pela Srta. D.

domingo, outubro 17

Em memória Benoit Mandelbrot

"Clouds are not spheres, mountains are not cones, coastlines are not circles,
and bark is not smooth, nor does lightning travel in a straight line."




BENOIT MANDELBROT
1924 — 2010

Para o grande metereologista pioneiro nos estudos dos sistemas complexos adaptativos. Mandelbrot morreu dia 14 de outubro de 2010, deixando aos 90 anos o mundo um pouco menos sábio. Olha a cara de sapeca do velhinho em abril!

Torrents de Outubro

Wall Street
Tom waits
The Corporation
The Quick and the Dead
Terra Em Transe
Seguranca Nacional
Red
Planet Earth Episode 4 - Caves
Mahabharata
Mongol
Lamarca
Ip Man The Legend Is Born
Ingmar Bergman - Fanny och Alexander
IMAX Journey Into Amazing Caves 2001
Guerra do Brasil - Toda Verdade Sobre a Guerra do Paraguai
Documentary ~ The Alchemists of Wall Street
deus e o diabo na terra do sol
Brazil
An Officer and A Gentleman
Alexis Zorbas
Vidas Secas - Nelson Pereira dos Santos

sábado, outubro 16

Ilya Prigogine

Ilya, Visconde Prigogine, ganhou um Nobel de química em 1977 por seus trabalhos em estruturas dissipativas. Com suas idéias, o tempo retorna como dimensão fundamental na ciência, trazendo conceitos cruciais como irreversibilidade e instabilidade para as ciências naturais e, lógico, sociais. Suas idéias em sistemas complexos adaptativos o tornaram um mentor da ciência contemporânea, algo como uma nova virada em uma ciência já estranha, a ciência de Einstein e Schrödinger. Ilya, com boa ventura, discursou pelo mundo falando de uma nova aliança -nome de um livro seu- e da emergência do paradigma científico com o tempo retomando o lugar fundamental em uma consciência cada vez mais holística. Benvindos ao mundo de marlboro dos sistemas complexos.

Compilação de Ilya Prigogine em inglês, sem legenda, sotaque carregadamente francófono


Entrevista com Ilya Prigogine, em francês, com legendas em espanhol, em 4 partes

sexta-feira, outubro 15

Moonlighting as Alchemy - Isaac Newton e a Alquimia

Moonlighting as a Conjurer of Chemicals
By NATALIE ANGIER

Sir Isaac Newton was a towering genius in the history of science, he knew he was a genius, and he didn’t like wasting his time. Born on Dec. 25, 1642, the great English physicist and mathematician rarely socialized or traveled far from home. He didn’t play sports or a musical instrument, gamble at whist or gambol on a horse. He dismissed poetry as “a kind of ingenious nonsense,” and the one time he attended an opera he fled at the third act. Newton was unmarried, had no known romantic liaisons and may well have died, at the age of 85, with his virginity intact. “I never knew him to take any recreation or pastime,” said his assistant, Humphrey Newton, “thinking all hours lost that were not spent on his studies.”

No, it wasn’t easy being Newton. Not only did he hammer out the universal laws of motion and gravitational attraction, formulating equations that are still used today to plot the trajectories of space rovers bound for Mars; and not only did he discover the spectral properties of light and invent calculus. Sir Isaac had a whole other full-time career, a parallel intellectual passion that he kept largely hidden from view but that rivaled and sometimes surpassed in intensity his devotion to celestial mechanics. Newton was a serious alchemist, who spent night upon dawn for three decades of his life slaving over a stygian furnace in search of the power to transmute one chemical element into another.

Newton’s interest in alchemy has long been known in broad outline, but the scope and details of that moonlighting enterprise are only now becoming clear, as science historians gradually analyze and publish Newton’s extensive writings on alchemy — a million-plus words from the Newtonian archives that had previously been largely ignored.

Speaking last week at the Perimeter Institute for Theoretical Physics in Waterloo, Ontario, William Newman, a professor of the history and philosophy of science at Indiana University in Bloomington, described his studies of Newton’s alchemical oeuvre, and offered insight into the central mystery that often baffles contemporary Newton fans. How could the man who vies in surveys with Albert Einstein for the title of “greatest physicist ever,” the man whom James Gleick has aptly designated “chief architect of the modern world,” have been so swept up in what looks to modern eyes like a medieval delusion? How could the ultimate scientist have been seemingly hornswoggled by a totemic psuedoscience like alchemy, which in its commonest rendering is described as the desire to transform lead into gold? Was Newton mad — perhaps made mad by exposure to mercury, as some have proposed? Was he greedy, or gullible, or stubbornly blind to the truth?

In Dr. Newman’s view, none of the above. Sir Isaac the Alchemist, he said, was no less the fierce and uncompromising scientist than was Sir Isaac, author of the magisterial Principia Mathematica. There were plenty of theoretical and empirical reasons at the time to take the principles of alchemy seriously, to believe that compounds could be broken down into their basic constituents and those constituents then reconfigured into other, more desirable substances.

Miners were pulling up from the ground twisted bundles of copper and silver that were shaped like the stalks of a plant, suggesting that veins of metals and minerals were proliferating underground with almost florid zeal.

Pools found around other mines seemed to have extraordinary properties. Dip an iron bar into the cerulean waters of the vitriol springs of modern-day Slovakia, for example, and the artifact will emerge agleam with copper, as though the dull, dark particles of the original had been elementally reinvented. “It was perfectly reasonable for Isaac Newton to believe in alchemy,” said Dr. Newman. “Most of the experimental scientists of the 17th century did.”

Moreover, while the alchemists of the day may not have mastered the art of transmuting one element into another — an ordeal that we have since learned requires serious equipment like a particle accelerator, or the belly of a star — their work yielded a bounty of valuable spinoffs, including new drugs, brighter paints, stronger soaps and better booze. “Alchemy was synonymous with chemistry,” said Dr. Newman, “and chemistry was much bigger than transmutation.”

For Newton, alchemy may also have proved bigger than chemistry. Dr. Newman argues that Sir Isaac’s alchemical investigations helped yield one of his fundamental breakthroughs in physics: his discovery that white light is a mixture of colored rays, and that a sunbeam prismatically fractured into the familiar rainbow suite called Roy G. Biv can with a lens be resolved to tidy white sunbeam once again. “I would go so far as to say that alchemy was crucial to Newton’s breakthroughs in optics,” said Dr. Newman. “He’s not just passing light through a prism — he’s resynthesizing it.” Consider this a case of “technology transfer,” said Dr. Newman, “from chemistry to physics.”

The conceptual underpinning to the era’s alchemical fixation was the idea of matter as hierarchical and particulate — that tiny, indivisible and semipermanent particles come together to form ever more complex and increasingly porous substances, a notion not so different from the reality revealed by 20th-century molecular biology and quantum physics.

With the right solvents and the perfect reactions, the researchers thought, it should be possible to reduce a substance to its core constituents — its corpuscles, as Newton called them — and then prompt the corpuscles to adopt new configurations and programs. Newton and his peers believed it was possible to prompt metals to grow, or “vegetate,” in a flask. After all, many chemical reactions were known to leave lovely dendritic residues in their wake. Dissolve a pinch of silver and mercury in a solution of nitric acid, drop in a lump of metal amalgam, and soon a spidery, glittering “Tree of Diana” will form on the glass. Or add iron to hydrochloric acid and boil the solution to dryness. Then prepare a powdery silicate mix of sand and potassium carbonate. Put the two together, and you will have a silica garden, in which the ruddy ferric chloride rises and bifurcates, rises and bifurcates, as though it were reaching toward sunlight and bursting into bloom.

Add to this the miners’ finds of tree- and rootlike veins of metals and alchemists understandably concluded that metals must be not only growing underground, but ripening. Hadn’t twined ores of silver and lead been found? Might not the lead be halfway to a mature state of silverdom? Surely there was a way to keep the disinterred metal root balls sprouting in the lab, coaxing their fruit to full succulent ripeness as the noblest of metals — lead into silver, copper to gold?

Well, no. If mineral veins sometimes resemble botanical illustrations, blame it on Earth’s molten nature and fluid mechanics: when seen from above, a branching river also looks like a tree.

Yet the alchemists had their triumphs, inventing brilliant new pigments, perfecting the old — red lead oxide, yellow arsenic sulfide, a little copper and vinegar and you’ve got bright green verdigris. Artists were advised, forget about mixing your own colors: you can get the best from an alchemist. The chemistry lab replaced the monastery garden as a source of new medicines. “If you go to the U.K. today and use the word ‘chemist,’ the assumption is that you’re talking about the pharmacist,” said Dr. Newman. “That tradition goes back to the 17th century.”

Alchemists also became expert at spotting cases of fraud. It was a renowned alchemist who proved that the “miraculous” properties of vitriol springs had nothing to do with true transmutation. Instead, the water’s vitriol, or copper sulfate, would cause iron atoms on the surface of a submerged iron rod to leach into the water, leaving pores that were quickly occupied by copper atoms from the spring.

“There were a lot of charlatans, especially in the noble courts of Europe,” said Dr. Newman. Should an alchemist be found guilty of attempting to deceive the king, the penalty was execution, and in high gilded style. The alchemist would be dressed in a tinsel suit and hanged from a gallows covered in gold-colored foil.

Newton proved himself equally intolerant of chicanery, when, in his waning years, he took a position as Master of the Mint. “In pursuing clippers and counterfeiters, he called on long-nurtured reserves of Puritan anger and righteousness,” writes James Gleick in his biography of Newton.

“He was brutal,” said Mark Ratner, a materials chemist at Northwestern University. “He sentenced people to death for trying to scrape the gold off of coins.” Newton may have been a Merlin, a Zeus, the finest scientist of all time. But make no mistake about it, said Dr. Ratner. “He was not a nice guy.”

Newton, Moonlighting as an Alchemist
The scope and details of Sir Isaac Newton’s interest in alchemy are only now becoming clear.
— NY Times

Sobre a vida e a dança I

O vídeo abaixo é uma demonstração de padrões formados a partir de autômatos celulares, um ramo fabuloso que demonstra que complexidade e caos (não nestes casos específicos) podem ser formados a partir de regras simples. Sobre caos em autômatos, ver "New Kind of Science", de Stephen Wolfram, aqui.

As regras para a dança no vídeo são simples:

1. Qualquer célula com menos que dois vizinhos morre de solidão.
2. Qualquer célula com mais do que 3 vizinhos morre de sufoco.
3. Qualquer célula com 2 ou 3 vizinhos vive no próximo tick.
4. Qualquer célula (viva ou morta) com exactamente 3 vizinhos vive no próximo tick.

Frua. E pra quem quiser análise, eis o jogo aqui.


Somewhere between sacred silence and sleep

Regra é da vida que podemos, e devemos aprender com toda a gente. Há coisas da seriedade da vida que podemos aprender com charlatães e bandidos, há filosofias que nos ministram os estúpidos, há lições de firmeza e de lei que vêm no acaso e nos que são do acaso. Tudo está em tudo. Em certos momentos muito claros de meditação, como aqueles em que, pelo princípio da tarde, vagueio observando pelas ruas, cada pessoa me traz uma notícia, cada casa me dá uma novidade, cada cartaz tem um aviso para mim. Meu passeio é calado é uma conversa contínua, e todos nós, homens, asas, pedras, cartazes e céu, somos uma grande multidão amiga, acotovelando-se de palavras na grande procissão do Destino.

Quintessência do Desassossego - Fernando Pessoa
BannerFans.com