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originally posted by: chelsealad
I came across this on my Facebook News Feed.
Now, I am probally at a pre-school level of understanding when it comes to this level of science, and the reason for this thread is for you guys to help me understand if there could possibly be a link and would it be worth a lot of my time to get to understand more.
There has to be more to the Collider experiments than what we are lead to believe....or maybe not?
link
originally posted by: [post=19350475]Azureblue Jimstone covered this on his blog and he linked to a report that there were seismologists in Nepal the week before the event occurred. What does that suggest?
E = VQ
Jimstone covered this on his blog and he linked to a report that there were seismologists in Nepal the week before the event occurred. What does that suggest?
originally posted by: Kashai
Char-Lee
Germany, Japan, USA, UK, Canada, USSR
These are the countries that during WW2 were working on making an Atom Bomb.
For the record Chemist know little or nothing about physics.
Strange quarks are actually contained within the particles of atoms which is actually very cool but not in relation to the topic.
Links please????
Any thoughts?
By the summer of 1945, Oppenheimer was ready to test the first bomb. On July 16, 1945, at TRINITY SITE near ALAMOGORDO, NEW MEXICO, scientists of the Manhattan Project readied themselves to watch the detonation of the world's first atomic bomb. The device was affixed to a 100-foot tower and discharged just before dawn. No one was properly prepared for the result.
The minimal risk as calculated by CERN allows for a 1 to 10 percent chance of extinguishing Earth.
Strange quarks are actually contained within the particles of atoms which is actually very cool but not in relation to the topic.
‘Team Castor’ has built a Calorimeter to detect the production of strangelets at CERN.
UPDATE. 20 AUGUST, 2014. RHIC (US ACCELERATOR) DETECTS THE FIRST STRANGELET ATOMS The news came in August. RHIC, the rival quark cannon, to the LHC, acknowledged that what all its ‘safety reports’ considered impossible – the distillation of strangelets, ‘strange quark liquid nuggets’, the strongest explosive known in the Universe – is happening at RHIC.
originally posted by: Azureblue
originally posted by: chelsealad
I came across this on my Facebook News Feed.
Now, I am probally at a pre-school level of understanding when it comes to this level of science, and the reason for this thread is for you guys to help me understand if there could possibly be a link and would it be worth a lot of my time to get to understand more.
There has to be more to the Collider experiments than what we are lead to believe....or maybe not?
link
when new technology like the Collider get developed there comes a time when they just have to be tested "under battle conditions."
Jimstone covered this on his blog and he linked to a report that there were seismologists in Nepal the week before the event occurred. What does that suggest?
Finally the magnetic field of the LHC, the strongest on planet Earth, which cause disturbances on the Earth’s magnetic field, cause of Earthquakes that have increased till record numbers, similar to those of II World War during the carpet bombing of the pacific seismic ‘ring of fire’, since the machine was put on line in a continuous growth.
Thus those risks are real, as the creation of particles in accelerators follow the Totalitarian principle of Physics, which translates the certainty of the Laws of Nature to particle physics. The principle states that ‘Every particle not forbidden is compulsory’ – meaning that everything that might happen in the realm of particle creation MUST happen. And since quark condensates, strangelets and toplets are theoretically sound and should be formed over 10 Tev, they must happen.
The Totalitarian Principle – a Universal law that applies to all natural sciences – means that in the same manner when you put fire on water it always boils with a 100% of chances, because the laws of Thermodynamics (heats move from the hot fire to the cold water) are ALWAYS RIGHT, are NOT probabilistic, any particle that can exist will certainly be formed in an accelerator under the right proportion of energy, which for the two particles that can extinguish us, black holes is 10 tev and for Strangelets is a quantity of strange quarks known as the ‘bag threshold’ also around 10 Tev, the barrier of entrance into the ‘dark world’ of ultra-powerful ‘mass bombs’ that once formed feed on all type of light matter.
Thus the different quark condensates that the LHC can produce and can extinguish us are bound to happen when the proper conditions of energy are met in 2015 when the machine is upgraded over the 10 Tev barrier, shown in great detail in the previous graph:
originally posted by: Char-Lee
originally posted by: Aleister
People fear this machine way out of proportion to its danger, which is none, unless it falls on your foot.
I disagree, when humans are dealing with complete unknowns but are certainly aware of the fact that there are dangers we should also be concerned. There are many things that could happen and the fact that it is all very experimental is the thing to be aware of.
Remember the testing that was done when the bomb was created? if we knew then what we know now, much of the conditions and testing would never have been done, it was extremely dangerous to the public and yet we were told everything was fine.
The same is true of germ warfare experiments that were NOt "completely safe".
We don't even understand the nature of our reality so how do we know what may damage it? They talk about minimal risk and percentages, but you can't figure that without knowing a whole lot more about everything than they do. I doubt many who did worry in the science would would speak up any more than they did with the Manhattan Project.
A blinding flash visible for 200 miles lit up the morning sky. A mushroom cloud reached 40,000 feet, blowing out windows of civilian homes up to 100 miles away. When the cloud returned to earth it created a half-mile wide crater metamorphosing sand into glass. A bogus cover-up story was quickly released, explaining that a huge ammunition dump had just exploded in the desert.
www.ushistory.org...
A few examples of possibility.
Strangelets are small fragments of strange matter—a hypothetical form of quark matter—that contain roughly equal numbers of up, down, and strange quarks and that are more stable than ordinary nuclei (strangelets would range in size from a few femtometers to a few meters across).[3] If strangelets can actually exist, and if they were produced at the LHC, they could conceivably initiate a runaway fusion process in which all the nuclei in the planet would be converted to strange matter, similar to a strange star.[3]
On 10 August 2008, Rainer Plaga, a German astrophysicist, posted a research paper on the arXiv Web archive concluding that LHC safety studies have not definitely ruled out the potential catastrophic threat from microscopic black holes, including the possible danger from Hawking radiation emitted by black holes
Otto Rössler, a German chemistry professor at the University of Tübingen, argues that micro black holes created in the LHC could grow exponentially
Did the Collider cause the earthquakes in Nepal
Nepal is particularly prone to earthquakes. It sits on the boundary of two massive tectonic plates – the Indo-Australian and Asian plates. It is the collision of these plates that has produced the Himalaya mountains, and with them, earthquakes.
These quakes are a dramatic manifestation of the ongoing convergence between the Indo-Australian and Asian tectonic plates that has progressively built the Himalayas over the last 50 million years.
Newly released documents regarding CERN's little known CASTOR project to detect strangelets indicate that CERN's 2008 safety report covered up both its existence and numerous papers by CMS and ALICE physicists affirming that strangelets might be produced in heavy ion collisions. CASTOR is a two ton detector at CMS designed to study strangelets and their precursors. Recent studies from China indicate that strangelets, if produced, could be both negatively charged and "absolutely stable" (G.X. Peng et al. 2006; X. J. Wen et al., 2007 & 2009). These are the two conditions for a "strangelet disaster" which "could transform the entire planet Earth into an inert hyperdense sphere about 100 metres across," according to Cambridge astrophysicist Martin Rees (Our Final Hour, 2003, p. 121).