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SEA UN CIENTIFICO CON LA BIBLIA: ERNEST LAWRENCE (HOLY GRAIL) S CYCLOTRON CALIFORNIA BERKELEY UNITED STATES
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Reply  Message 1 of 7 on the subject 
From: BARILOCHENSE6999  (Original message) Sent: 28/08/2024 04:55

Ernest Lawrence's Cyclotron:
Invention for the Ages

By Lynn Yarris, LCYarris@lbl.gov

 

H istorians cite the Roaring Twenties as the decade in which the United States began its transition to a modern, technology-based society. For the first time in the nation's history, a majority of its citizens lived in urban areas. The Golden Age of radio broadcasting began. Automobiles, telephones, and electric appliances became staples. The stock market soared and crashed. Prohibition came and (later) went. Suffrage came and stayed. Politicians gave us isolationism, preachers gave us revivalism, and bootleggers brought us organized crime.

 

 

Ernest Lawrence, Glenn Seaborg and Robert Oppenheimer in
1946 at the control panel of the 184-Inch Cyclotron.
This was also a period of momentous individual achievement and the emergence of new leaders who forever changed the way things had been done. Charles Lindbergh's solo flight across the Atlantic ushered in the age of modern aviation; Babe Ruth's home-run heroics made baseball the national pastime; and Henry Ford's assembly lines opened the doors to mass production. In the arts, the literature of Scott Fitzgerald and Ernest Hemingway, the music of George Gershwin, the humor of Charlie Chaplin, and the paintings of Edward Hopper showed the way with their enduring brilliance. And in the arcane world of science, a 27-year-old physics professor in Berkeley began the work that would launch the modern era of multidiscipline national laboratories. His name was Ernest Orlando Lawrence.

Lawrence arrived at the University of California's Berkeley campus in the summer of 1928, having been wooed from a faculty position with Yale University by promises that included auxiliary connections to UC's Chemistry Department. Until then, the traditional practice of science was that physicists, chemists, and biologists worked within their own departments; seldom did the twain meet. Access to scientists and students from other disciplines, as well as to engineering staff, was critical to Lawrence's success as a researcher. It also set the pattern for the unique laboratory he created.

Inspired by a paper from Norwegian engineer Rolf Wideroe, Lawrence invented a unique circular particle accelerator, which he referred to as his "proton merry-go-round," but which became better known as the cyclotron. The first cyclotron was a pie-shaped concoction of glass, sealing wax, and bronze. A kitchen chair and a wire-coiled clothes tree were also enlisted to make the device work. Despite its Rube Goldberg appearance, the cyclotron proved Lawrence's point: whirling particles around to boost their energies, then casting them toward a target like stones from a slingshot is the most efficient and effective way to smash open atomic nuclei.

In his first year at Berkeley, Lawrence developed close relationships with two Cal professors outside of the Physics Department--chemist Gilbert Lewis and electrical engineer Leonard Fuller. From Lewis he would later get deuterons, the hydrogen isotope in heavy water that proved an invaluable "stone" for smashing atoms. With the help of Fuller, who was also vice-president of the Federal Telegraph Company, he obtained an 80-ton magnet for which the company had no use.

The accelerating chamber of the first cyclotron measured five inches in diameter and boosted hydrogen ions to an energy of 80,000 electron volts. Even as his assistants, M. Stanley Livingston and David Sloan, were constructing the 11-inch cyclotron -- a machine that would go on to break the one million electron volt (MeV) barrier -- Lawrence was dreaming of bigger things. The two gifts from his friends -- the magnet and deuterons to use as projectiles -- made possible his dream of constructing a cyclotron with an accelerating chamber some 27-inches in diameter and capable of reaching energies of nearly 5 MeV. But Lawrence would need more laboratory space to see the project through.

Lawrence had been recruited to Berkeley as part of the University's determination to build a physics department equal in stature to its celebrated Chemistry Department. Toward that end, Cal had opened Le Conte Hall in 1924 as one of the largest physics buildings in the world. Le Conte Hall could accommodate the 11-inch cyclotron in Room 329, but a 27-inch cyclotron with all of its trappings would be too much.

With backing from physicists and chemists alike, Lawrence procured from the University an empty building adjacent to Le Conte Hall called the Civil Engineering Testing Laboratory. In August 1931 the building was turned over to Lawrence and renamed the "Radiation Laboratory."

The old Radiation Laboratory

The 27-inch accelerating chamber of the Rad Lab's first cyclotron was soon replaced with a 37-inch chamber. By 1936, the 37-inch cyclotron, which could accelerate deuterons to 8 MeV and alpha particles to 16 MeV, had been used to create radioisotopes and the first artificial element, technetium. The design, construction, and operation of these increasingly larger cyclotrons involved a growing number of physicists, engineers, and chemists. (Lawrence was never certain as to whether his research should be called nuclear physics or nuclear chemistry.)

In recognition of its departure from the traditional academic lines of departmental science, the University officially established the Radiation Laboratory as an independent entity within the Physics Department on July 1, 1936. Henceforth, the new laboratory would be dedicated to the pursuits of "nuclear science" rather than accelerator physics.

Around this time, Ernest Lawrence also invited his brother John, a physician, to join the Lab and explore the use of radioisotopes in biology and medical research. The extension of the Rad Lab's history-making collaborations between physicists, chemists, and engineers to also include biologists led to the construction of the Crocker Laboratory. Built next to the Rad Lab, the Crocker Lab housed a cyclotron with an accelerating chamber that measured 60-inches in diameter.

The 60-inch cyclotron, which began operations in 1939, was described by visitors as a "truly colossal machine." Its magnet weighed 220 tons, prompting someone to joke that its neutrons would reach Chicago. But even as this huge machine was being put to use on experiments that would garner Nobel prizes for researchers Glenn Seaborg and Melvin Calvin, Lawrence was at work planning an even mightier giant. The next cyclotron that Lawrence envisioned would be so large no laboratory building on campus could contain it.

Fresh off his winning of the Nobel Prize in 1939 for the invention of the cyclotron, Lawrence made his push for a machine that would feature a magnet weighing 4,000 tons. Its accelerating chamber would measure 184 inches in diameter and would be capable of rocketing atomic particles to energies in excess of 100 MeV. To house such a machine and the experimental facilities that would go with it required a building 160 feet in diameter and almost 100 feet tall. A site for this structure was found atop a knobby promontory midway up the ridge behind campus. The promontory, known as Charter Hill, became the permanent site of Lawrence's Radiation Laboratory when construction of the 184-Inch Cyclotron (its design was altered to make it a "synchrocyclotron) was completed in 1946.

Lawrence died on Aug. 27, 1958, of chronic colitis at the age of 57. In his honor, the Radiation Laboratory was officially renamed the Lawrence Radiation Laboratory. In 1971, the laboratories in Berkeley and Livermore (which Lawrence also founded) were separated and the name Lawrence Berkeley Laboratory was born. In 1995, current Director Charles Shank requested that the laboratory be officially renamed the Ernest Orlando Lawrence Berkeley National Laboratory. This was done to fully honor the man whose cross-discipline team approach to research remains the hallmark of the laboratory he founded.

 

===================

 

A Few Highlights in Lab History

  • 1930 -- Ernest O. Lawrence invents the cyclotron.
  • 1931 -- Radiation Laboratory opens on UC Berkeley campus.
  • 1935 -- John Lawrence comes to Lab, begins field of nuclear medicine.
  • 1936 -- First artificial element (technetium) created.
  • 1940 -- Carbon-14, neptunium, and plutonium discovered.
  • WWII -- Laboratory makes valuable contributions to Manhattan Project.
  • 1946 -- Construction of 184-Inch Cyclotron completed.
  • 1947 -- Melvin Calvin uses carbon-14 as tracer to study photosynthesis.
  • 1948 -- Luis Alvarez invents proton linac.
  • 1950 -- "Anger cameras" invented.
  • 1953 -- Donald Glaser invents bubble chamber.
  • 1954 -- Bevatron completed.
  • 1955 -- Antiproton discovered at the Bevatron.
  • 1957 -- SuperHILAC commissioned.
  • 1958 -- Ernest O. Lawrence dies; Lab renamed Lawrence Radiation Laboratory.
  • 1960 -- Luis Alvarez discovers resonance states.
  • 1962 -- 88-Inch Cyclotron commissioned.
  • 1964 -- George Pimentel invents chemical laser.
  • 1971 -- Lawrence Berkeley and Livermore Laboratories separate.
  • 1974 -- J/psi particle and element 106 (seaborgium) discovered.
  • 1976 -- Charmed mesons discovered.
  • 1978 -- Dynamic Positron Emission Tomography is invented.
  • 1979 -- Segmented mirror designed for Ten Meter Telescope.
  • 1980 -- Mina Bissell proposes ECM theory on breast cancer; superwindows developed.
  • 1982 -- National Center for Electron Micropscopy opens.
  • 1984 -- Luis Alvarez proposes theory of dinosaur extinction; Tom McEvilly successfully predicts 1993 Parkfield earthquake.
  • 1987 -- Lab gets Human Genome Center.
  • 1988 -- Material harder than diamond predicted; first direct image of DNA double helix created.
  • 1990 -- First genetic links to atherosclerosis identified.
  • 1991-- SNO Collaboration begins.
  • 1992 -- COBE satellite image of primordial universe supports Big Bang theory.
  • 1993 -- ALS commissioned.
  • 1994 -- Top quark discovered; STAR and B-factory approved.
  • 1995 -- National Energy Research Scientific Computing (NERSC) Center acquired; Gammasphere dedicated.
  • 1995 -- Lab renamed Ernest Orlando Lawrence Berkeley National Laboratory.


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Reply  Message 2 of 7 on the subject 
From: BARILOCHENSE6999 Sent: 28/08/2024 05:02

The Rad Lab

 

The more energetic the particles produced by an accelerator, the more interesting physics they can create in the laboratory. Lawrence did not remain satisfied with the million-volt protons provided by his eleven-inch cyclotron, but hoped to increase the energy by a factor of ten or more. Higher energies required bigger magnets and faster oscillators. It also demanded more money. It was not a good time to raise money for research, as the U.S. reached the depths of the Great Depression. Universities in general suffered less than other segments of society. Still, in 1933 the physics department of the University of California at Berkeley had to cut its research budget by a third and impose an austerity program of lower salaries and fewer teaching assistants.
Overpayment of Teachers headline
refugee families on 
the unemployment line during the depression

Refugee families encamped near Holtville, California. March 1937.

 
Men at the San Francisco State Employment Office. They will receive from six to fifteen dollars per week for up to sixteen weeks.

Cyclotroneers with 27-inch cyclotron
"Cyclotroneers" encouraging a beam in the 27-inch cyclotron.

Lawrence was obliged to seek new funding sources. He was as adept at fundraising as at building new devices and despite the grim Depression environment, he found donors for his next machine. One patron was the Research Corporation, a company that filed patents on behalf of university professors and plowed the proceeds back into academic research. Another was the Chemical Foundation, set up by the federal government to administer the thousands of German patents seized in World War I. The Research Corporation urged Lawrence to take a patent on his cyclotron. Lawrence at first resisted--like many prewar scientists, he did not think of academic research as a money-making business. But when he learned that an engineer at Raytheon had applied for a patent on a similar circular accelerator, the fear of an industrial monopoly made him file an application for the cyclotron (the patent was granted in 1934).

 


The original Radiation Laboratory at U.C. Berkeley
The original Radiation
Laboratory on the Berkeley Campus.

The university provided the remainder of the funds and a building to house the new machine. In August 1931 an old civil engineering building was made available for Lawrence, which came to be called the Radiation Laboratory. The building housed a new 27-inch cyclotron, with an 80-ton magnet originally built to power a transatlantic radio link in World War I. Lawrence acquired the magnet at a discount as war surplus. By September 1932 the cyclotron was accelerating protons up to 3.6 million electron-volts.

Click to hear the "Cyclotronist's Nightmare"

(takes you to a page where you can choose an MP3 or Wave file)

 

Lawrence at the controls of a 37-inch cyclotron around 1938.

Ernest Lawrence at the controls of the 37-inch cyclotron about 1938.

In what became typical for Lawrence, he was already planning his next machine before the current one started working. In 1937 he had a 37-inch cyclotron operating, followed two years later by a 60-inch device. To build the succession of machines Lawrence solicited $550,000 worth of expenses and equipment for his laboratory between 1931 and 1940. Donors included the state of California through the university; private philanthropies, notably the Macy and Rockefeller Foundations; and the federal government through the National Cancer Institute. Industrial firms donated equipment.

"The trade of a �cyclotroneer' is one which has experienced no depression."

A student of Lawrence in 1938

Joseph Hamilton drinking radiosodium
Rad Lab staff demonstrated the potential application of radioactive isotope tracers in public lectures. A volunteer would drink a "radiosodium cocktail" of salt water containing radiosodium, and trace its progress through the body with Geiger counters.
The federal government also provided support through two New Deal agencies, the Works Progress Administration and the National Youth Authority, which put electricians, machinists, carpenters, and other technical assistants to work in the Rad Lab on the government's payroll. The Depression also produced a steady supply of physicists willing to work for nothing in order to learn cyclotronics. From 1933 to 1940 the Rad Lab had several graduate and postdoctoral students paying their own way at the lab. They helped the Rad Lab staff grow from a total of ten in 1932 to sixty in 1939.

Lawrence found another important way to elicit funds—appeals to biomedical applications. Lawrence's colleague David Sloan had put his linear accelerator to work at the university's medical school as a powerful source of X-rays. The example encouraged Lawrence to promote similar applications of the cyclotron, such as the production of radioactive isotopes, which had medical uses in attacking cancers and as "tracers" in research on metabolism, and beams of neutrons, which promised to rival the utility of X-rays.

Philanthropies at the time donated far more money to medicine, public health, and biology than to physics. In 1933 the Rockefeller Foundation, a dominant supporter of American fundamental research in years between the wars, decided to concentrate on applications of the methods of physics and chemistry to biology and medicine. But Lawrence did not just give lip service to biomedicine. He believed in the promise of particle accelerators as a possible weapon against cancer. In 1937 Lawrence brought his mother, diagnosed with inoperable cancer, to San Francisco for treatment with Sloan's X-ray tube, after which her condition dramatically improved.

Cooksey and Lawrence at the 60-inch cyclotron

Posing with the newly completed 60-inch cyclotron in the Crocker Laboratory are (left to right) Donald Cooksey and Ernest Lawrence.

Treating a patient with neutrons from the cyclotron
Robert Stone and
John Lawrence, Ernest's
brother, treat a patient with neutrons from the 60-inch cyclotron.

"I must confess that one reason we have undertaken this biological work is that we thereby have been able to get financial support for all of the work in the laboratory. As you know, it is much easier to get funds for medical research."

Lawrence to Niels Bohr, 1935


Reply  Message 3 of 7 on the subject 
From: BARILOCHENSE6999 Sent: 06/09/2024 04:45
Cyclotrons: Magnetic Design and Beam Dynamics - CERN Document Server

Reply  Message 4 of 7 on the subject 
From: BARILOCHENSE6999 Sent: 03/10/2024 02:13
Saint of the day: St. Lawrence

Reply  Message 5 of 7 on the subject 
From: BARILOCHENSE6999 Sent: 08/10/2024 14:16
The Magdalene Legacy: The Jesus and Mary Bloodline Conspiracy – Revelations  Beyond The Da Vinci Code: Gardner, Laurence: 9780007200856: Amazon.com:  Books
Walang paglalarawan ng litrato na available.
Different cyclotron size: a) Lawrence ́s first one, b) Venezuela First one (courtesy of Dorly Coehlo), c) Fermi National Laboratory at CERN. And size matters, and Cyclotrons win as best hospital candidates due to Reactors are bigger, harder and difficult to be set in a hospital installation. Can you imagine a nuclear reactor inside a health installation? Radiation Protection Program will consume all the budget available. Size, controlled reactions, electrical control, made cyclotrons easy to install, and baby cyclotrons come selfshielded so hospital don ́t need to spend money in a extremely large bunker. Now on, we are going to talk about our first experience with the set up of a baby cyclotron for medical uses inside the first PET installation in Latin America. “Baby” means its acceleration “D” diameters are suitable to be set inside a standard hospital room dimensions, with all its needs to be safetly shielded for production transmision and synthetized for human uses for imaging in Nuclear Medicine PET routine. When we ask why Cyclotrons are better than reactors for radioisotopes production to be used in Medicine, we also have to have in mind that they has: 1. Less radioactive waste 2. Less harmful debris 

Different cyclotron size: a) Lawrence ́s first one, b) Venezuela First one (courtesy of Dorly Coehlo), c) Fermi National Laboratory at CERN. And size matters, and Cyclotrons win as best hospital candidates due to Reactors are bigger, harder and difficult to be set in a hospital installation. Can you imagine a nuclear reactor inside a health installation? Radiation Protection Program will consume all the budget available. Size, controlled reactions, electrical control, made cyclotrons easy to install, and baby cyclotrons come selfshielded so hospital don ́t need to spend money in a extremely large bunker. Now on, we are going to talk about our first experience with the set up of a baby cyclotron for medical uses inside the first PET installation in Latin America. “Baby” means its acceleration “D” diameters are suitable to be set inside a standard hospital room dimensions, with all its needs to be safetly shielded for production transmision and synthetized for human uses for imaging in Nuclear Medicine PET routine. When we ask why Cyclotrons are better than reactors for radioisotopes production to be used in Medicine, we also have to have in mind that they has: 1. Less radioactive waste 2. Less harmful debris 

https://www.researchgate.net/figure/Different-cyclotron-size-a-Lawrence-s-first-one-b-Venezuela-First-one-courtesy-of_fig3_221906035
Fuego elemento - Angels & Demons | OpenMovieMap
John 1:18 No man has seen God at any time, the only begotten Son, which is  in the bosom of the Father, he has declared him.
John 1:18 No one has seen God at any time; the only begotten God who is in  the bosom of the Father, He has explained Him.
John 1:18
Jesus and the Big Bang: Prologue John 1:1-18 | One Small Voice
John 1:18 No one has seen God at any time; the only begotten God who is in  the bosom of the Father, He has explained Him.
John 1:18 - Bible verse - DailyVerses.net
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Reply  Message 6 of 7 on the subject 
From: BARILOCHENSE6999 Sent: 06/12/2024 16:48

Viktor Schauberger: The Man Who Invented Flying Discs For The Nazis

VN  EN
Lumia Nguyen  22/10/21 04:12pm  infinityexplorers  bình luận  34
A- A+
Some historical figures leave behind little real information, but many secrets and mysteries.
Viktor Schauberger: The Man Who Invented Flying Discs For The Nazis Ảnh minh họa

One such person was a scientist, thinker, philosopher, and inventor, and the author of innovative technological ideas. He was hired to work for the Third Reich and allegedly built for the Nazis a flying machine that looked like a disc-shaped UFO for the Nazis.

And then this man suddenly disappeared from history as quickly and mysteriously as he appeared. It is officially believed that he di‌ed a natural death, but there are many theories that he was either deliberately killed or his death was faked, but in fact was kidnapped for his own purposes. 

The Mysterious Disappearance Of Viktor Schauberger

A man named Viktor Schauberger was born in Austria in 1885 and initially had an experience that had nothing to do with his future fame as the inventor of Hitler’s UFOs. He grew up in a hereditary family of foresters living in a vast area of remote wilderness in Holzschlag, Upper Austria, and spent most of his youth and middle years tending more than 10,000 hectares of land.

During this time, constantly being in nature, he began to make many observations that profoundly changed his life and outlook. In particular, he was absolutely fascinated by water, which he regarded as an independent living organism, calling it the “Blood of the Earth” and the source of all living things. 

He especially focused on such properties of water as its spiral forms, eddies, fast currents, eddies, and easy harmony with the surrounding world.

He obsessively studied the movements and effects of water, continuing to form many theories, and then he began to craft completely innovative types of spiral-cut water gutters, the design of which was based on his own hydrodynamic system.

According to this system, an inward-moving and swirling water vortex could be used for power and thrust, which was the beginning of his revolutionary new idea for a new type of engine that relied on implosion (an explosion directed inward) rather than conventional explosions. 

Viktor Schauberger was completely self-taught, he never took any university courses, but he soon gained international recognition thanks to some of his ideas, patents, and inventions, and controversy. He was critical of the many inventions available in his era, believing that they work against the laws of nature and are destructive. 

Instead, he embraced the idea that humanity and nature can live together using alternative energy sources, such as using natural processes and live in harmony with them. His motto was “Kapieren und kopieren” (To comprehend and copy nature). Schauberger believed that many inventions of mankind were contrary to nature, and later he stated that even the propeller was an imperfect invention:

“As nature best demonstrated in the case of the winged maple seed, today’s propeller is a pressure rotor, and therefore a brake rotor, whose purpose is to allow the heavy maple seed to slowly fall to the ground like a parachute and move away from the wind.

No bird has such a rotating object on its head, nor a fish on its tail. This brake rotor was only used by a person for forward propulsion. As the propeller spins, drag increases in proportion to the square of the rotation speed. It is also a sign that this supposed propulsion device is not built naturally and is therefore out of place. “

Schauberger sought to bring his ideas to life by coming up with a detailed theory according to which water vortices can build on each other to create more and more forces, which, in turn, will create a force opposite to gravity. In essence, Schauberger was explaining how to create anti-gravity, which he called diamagnetism. 

He used these theories to create fantastic inventions such as a water blast turbine that sucked in air in a spiral, reaching enormous forces. He also invented the machine that created a typhoon-like suction force to control the temperature in a room, and a power generator. These machines created energy from water and air using spiral pipes and nozzles. 

All of this worked on the principles of clean energy and working with nature, apparently with little or no pollution and being completely sustainable.

It might seem odd that such a radical promoter of green energy and work with nature caught the attention of the Nazis, who were not particularly concerned with preserving the environment. But he really piqued their interest, and in 1934 the Nazis approached him with a tempting offer to work for them for a good salary. Schauberger agreed.  

Furthermore. In 1938, Nazi Party member Julius Streicher allegedly personally ordered him to build an aircraft that could use a vortex engine. This device had to have the shape of a disk and move completely differently from all modern aircraft while hovering in the air in one place (levitation), performing precise maneuvers, and accelerating at high speeds. 

Basically, they wanted Schauberger to build a futuristic anti-gravity ship using his own natural theories, and since they were the Nazis, he had no choice but to agree once again, receiving an exorbitant amount of money.

In 1940, Schauberger created the first prototype of his artificial UFO, called Repulsin A, which used friction between vortices and the surrounding air to force the air downward, creating an overall lifting and propelling effect, more or less producing a kind of mini-tornado, on the energy of which this ship moved. 

However, it was found that the vortex motor was unstable, and the fan inside the device could not spin as fast as required because the blades were pushing out too much air. At the time, no way was found to circumvent the problem of generating more intense rotational energy, and the device was deemed too impractical. 

Indeed, during the testing of the ship, although it could indeed levitate, it was almost impossible to control or move forward, usually quickly spinning out of control or even flying through the roof of the test hangar. 

According to rumors, the Nazis were furious at Schauberger’s inability to solve these problems, which caused the inventor to be temporarily imprisoned. But then he came under the personal attention of Heinrich Himmler, who drew Schauberger to work on another miracle of technology – a new type of silent mini-submarine, and then ordered to continue work on a new version of the anti-gravity device called Vril-7.

It is not known how far Schauberger went with the Vril-7, as the end of World War II halted all secret Nazi research (at least official), with most of his work, prototypes, and plans destroyed so that they would not fall into the hands of the Allies.

The Americans, knowing how important Schauberger was to the Germans, arrested him and took him to the United States, intensively interrogating him, but were never able to get much information from him. However, they were able to use all the information they received to the maximum. The fundamental principles that Schauberger used were later applied to several projects, including the Avro Canada VZ-9 Avrocar, which was a vertical takeoff and landing aircraft developed during the Cold War era, and others. 

Schauberger, while in the United States, tried for several more years on various civilian vortex technology projects such as generators, water purification systems and air purification devices, before eventually returning to Austria on September 25, 1958, almost penniless.

He di‌ed quite suddenly, just five days after his return to his homeland, taking all his secrets with him to the grave. 

Since then, various conspiracy theories have regularly emerged about Schauberger, including that his research went much further than anticipated, and that many of the UFOs that were seen during the Second World War were in fact Schauberger’s experimental devices.

But all these are just hypotheses and unverified rumors, for sure no one knows anything. He remains in many ways a ghost person, the true scope of his work is unknown, and his research is enigmatic.   

https://www.xaluannews.com/modules.php?name=News&file=article&sid=3296405

Reply  Message 7 of 7 on the subject 
From: BARILOCHENSE6999 Sent: 08/12/2024 17:59
2 DE DICIEMBRE DE 1954 / JUAN PERÓN PONE EN MARCHA EL PRIMER CICLOTRÓN DE  LA COMISIÓN NACIONAL DE ENERGÍA ATÓMICA – Todo Perón


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