Sunday, November 23, 2014

Why a Physics Revolution Might Be on Its Way

Ben Rich...Quotes...Anything you can imagine we already know how to do., cont... We found an error in the equations and it won't take a lifetime to do it.

Post #: 47
Ben Rich...Quotes...Anything you can imagine we already know how to do., cont...

"The U. S. Air Force has just given us a contract to take E. T. back home."

"We also know how to travel to the stars."

"Anything you can imagine we already know how to do."

"If you've seen it in Star Trek or Star Wars, we've been there and done that."

"We have things in the Nevada desert that are alien to your way of thinking
far beyond anything you see on Star Trek."






Upon graduation with a master's degree in thermodynamics from UCLA, Ben Rich was hired by Lockheed. In December 1954, Rich was sent to the secret research and development Skunk Works section run by Lockheed. Later was program manager for the SR-71 Blackbird propulsion system. The idea to paint the high-speed aircraft's skin black, to help dissipate the tremendous frictional heat, was Rich's. He championed the early prototypes of stealth technology and led the development of theF117stealth fighter. Ben Rich, stated during a 1993, Alumni Speech at UCLA:


ISN'T IT BEN RICH WHO SPOKE ONLY A FEW YEARS AGO AT A MEETING IN CALIFORNIA AND SAID WE HAD THE TECHNOLOGY `TO TAKE E. T. HOME'?
That's exactly correct, Linda. I have that quote right here. Mr. Ben Rich passed away in 1995 and before he passed away, he dropped a number of bombshells. This took place at Wright-Patterson AFB back in 1993. He gave a slide presentation there and also at the UCLA School of Engineering Alumni speech – he gave on March 23, 1993. At the very end of his presentation, in both of these venues, he completed his slides with the following quote: `The U. S. Air Force has just given us a contract to take E. T. back home.'

He also mentioned, "We already have the means to travel among the stars, but these technologies are locked up in black projects and it would take an act of God to ever get them out to benefit humanity… ...anything you can imagine we already know how to do."

And he also mentioned at the UCLA speech, `It is time to end all secrecy on this as it no longer poses a national security threat and to make the technology available for use in the private sector.' That's exactly what we're talking about here.

He was telling us about a whole level of aircraft, of spacecraft, of advanced propulsion systems that are so far advanced. He even mentioned technologies that are 50 years beyond even what we could possibly dream of. Now, when you hear that coming from the Director of the Skunk Works, I think it is important to really take that to heart. This gentleman knew something and he was trying to tell us something. And I think this is the space program that none of us have a clue about in the civilian sector. This is what Ben Rich was trying to tell us about.

Ben Rich "father of stealth technology" and former vice-president of the Lockheed corporation made a few statements to Jim Goodall. He said "we have things out in the desert that are 50 years beyond what you can comprehend" "and wont be made public for another 50 years" "If you've seen it in Star Trek or Star Wars, we've been there and done that.

In another interview Jim Godall said this:
"Ben Rich told me twice before he died: 'We have things at Area 51 that you and the best minds in the world won't even be able to conceive that we have for 30 or 40 years, and won't be made public for another 50." A friend of mine at Lockheed told me: "We have things in the Nevada desert that are alien to your way of thinking far beyond anything you see on Star Trek."

One time I interviewed a retired senior master sergeant who had been at Groom Lake three different times as an Air Force safety specialist. ... At first he was real nervous, but when he warmed up he told me: 'We have things that would make George Lucas envious.' I know one retired guy who worked at Lockheed for 30 years, most of the time at Area 51 ; he's very proud of what he's done, and he wants the story of the place to be told so that his grandchildren will have some idea of what he was involved in. In the summer of '86 I asked him if he believes in UFOs. He said, 'They absolutely, positively do exist !' I said, 'Can you expand on that?' And he said, 'No, I've said too much as it is.' "

Of course this technology could only come from UFOs. But those statements lead me to another question. What about teleportation (beam me up scotty!) If Ben Rich said anything you see on Star Trek, we've already done, that leads me to believe that teleportation is possible. To a small degree we already know its possible because Scientists did it in a lab with protons. No wonder the ancients thought extraterestrials were gods.

About Ben Rich
Benjamin R. (Ben) Rich graduated from Berkley with a degree in mechanical engineering in 1949 at the age of 25. Rich originally wanted to become a doctor. In 1949 Rich decided to get a master's degree from UCLA specializing in both "aeronautical engineering and dateing soriety girls." Rich came to Lockheed in 1950 after recieveing a degree aeronautical engineering. In December 1954 he was summoned to the Skunk Works by Kelly Johnson as a 29 year old thermodynamisist earning $87 dollars a week. Kelly had requested to borrow from the main plant "a thermodynamicist, preferably a smart one" to solve an unspecified problem. Ben Rich's first assignment with the Skunk Works was the intake on the XF-104 Starfighter. Rich would soon work on the U-2, the A-12, YF-12, Sr-71, and D-21 programs. He joined the SR-71 program in it's inital stages in 1958, and as a thermodynamicist, personally suggested that the Blackbird family of aircraft be painted black to reduce surface temperatures.

In 1975 Rich succeeded Johnson as the head of Skunk Works and as a Lockheed vice president in 1977. Rich during this period focused the Skunk Works on the creating the F-117A. In 1977 when the XST made it's first flight, retired Kelly Johnson slapped Rich on the back and yelled "Well, Ben, you got your first airplane." In 1984-86 he served as interm president of Lockheed's Advanced Aeronautical Company, after which he promptly returned to head up Skunk Works once again. In May 1990 when the Skunk Works became a independent company, Ben Rich was named the company's first president and "Chief Skunk." In December 1990 while the first deployment of F-117A's were heading to Saudi Arabia for DESERT SHEILD, Rich retired from Skunk Works.

Ben Rich (and the entire F-117A team) won the 1989 Collier Trophy, was a fellow of the American Institute of Aeronautics and Astronautics (AIAA), recieved the American Institute of Aeronautics and Astronautics (AIAA) national aircraft design award in 1972, was selected the 1988 Wright Brothers annual lecturer by both the AIAA and the British Royal Aeronautical Society, and in 1991 was elected an honorary fellow of the AIAA. In 1994, Ben Rich published his memoirs "Skunk Works."

Particle Physics
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The field of physics may be turned on its head soon, said renowned physicist Nima Arkani-Hamed during a live lecture from the Perimeter Institute for Theoretical Physics in Waterloo, Canada.
For one, he said, the tried and true physics of relativity and quantum mechanics don't get along well. The problem is that in some sense, the principles behind these theories seem to be impossible when physicists dig a little deeper into them, Arkani-Hamed said. Scientists run into a lot of problems when they try to apply these theories to the entirety of space and time.
The two ideas are also incredibly constraining, and they make it challenging for physicists to think outside the box and develop new ideas and theories, Arkani-Hamed said. [The 9 Biggest Unsolved Mysteries in Physics]

"It's almost impossible to monkey around with the rules and not be wrong immediately," Arkani-Hamed said.
Physicists have known about this disparity for a while, but progress on fundamental questions in physics takes a long time. Scientists proposed the existence of the Higgs boson particle, for example, decades before it was actually discovered.
An unexplained macroscopic universe
One problem is that conventional physics doesn't really account for why the universe is so large, Arkani-Hamed said.
Albert Einstein's theory of relativity showed that a huge amount of energy exists in the vacuum of space, and it should curve space and time. In fact, there should be so much curvature that the universe is a tiny, crumpled ball.
"That should make the universe horrendously different than what it is," Arkani-Hamed said.
But quantum mechanics also poses a problem. The theory is good at describing the very small realm of particle physics, but it breaks down when physicists try to apply it to the universe as a whole.
"Everything that quantum mechanics is, is violated by our universe because we're accelerating (referring to the idea that the universe is expanding) – we don't know what the rules are," Arkani-Hamed said. "When you try to apply quantum mechanics to the entire universe, quantum mechanics cries 'uncle.'"
Physics frontiers
One possible way to solve the problem is with an entirely new theory beyond the Standard Model, the reigning theory of particle physics, the physicist said. [Sparticles to Neutrinos: The Coolest Little Particles in the Universe]
One idea is called string theory, which proposes that particles aren't actually fundamentally particles. Instead, the particles and all the matter in the universe they make up are composed of tiny, vibrating strings. The equations that support string theory appear to work, but that doesn't mean there are no other viable formulas or explanations, Arkani-Hamed said.                     
Supersymmetry  is another possible "new physics" explanation. Under this idea, all subatomic particles have a "superpartner" particle that physicists have yet to discover. Supersymmetry would also open up extra directions that the particles can move in. The discovery of supersymmetry would bolster the Standard Model of physics, scientists have said.
"It's the last thing nature can do to make itself compatible with the general principles of physics that already exist," Arkani-Hamed said.
When the world's largest atom smasher, the Large Hadron Collider (LHC), is up and running again next year, physicists will be looking for the extra particles that supersymmetry suggests should exist.
Either way, after a year or two of running the LHC, the question of whether supersymmetry exists should be answered, Arkani-Hamed said.
The experiments over the next few years will likely tell physicists if they need to fine-tune existing theories or if the field of physics is due for a much deeper and more dramatic paradigm shift.
The questions on the table now are the underpinnings of space and time, and the origin and fate of the universe, Arkani-Hamed said.
"Today we finally have the theoretical framework in place to ask these kinds of big questions," Arkani-Hamed said. "The next step will likely be a revolution."

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