I think it's impossible that a black hole will arise at the LHC, due to the following reasons:
Firstly, what is created at the LHC at CERN are Big Bang conditions, in other words: matter spreading outwards. When a black hole occurs it's matter imploding, so the exact opposite.
Secondly, the LHC works with Hadrons (Protons or Neutrons) which are so small that they have a simply to little amount of mass to implode. Even our sun which is 1,19*1057 times heavier than a hadron is to leigthweight to implode to a black hole.
Additionally IF a black hole arised, it would be so small (imagine a hadron imploding, a hadron alone is just 1,672 621 777· 10−27 kg heavy - the consequent black hole would be even smaller) that it would take billions of years (longer than the remaining lifetime of our sun) to gain a size that could be harmfull to mankind in any way.
That's my opinion.
Western Europe is one of the most technologically advanced places on Earth. All kinds of modern technology is found there and many modern technologies are developed there. There are many universities and other organisations, such as CERN, which are involved in all sorts research and development. CERN is the location of the Large Hadron Collider and is also where the World Wide Web started.
The speed of light is exceeded by several things. Wave guides for instance. However all present theories preclude any information or mass to exceed the speed of light. Neutrinos have never been sent through the CERN collider at super-luminal velocities.
We are not sure if the theorized Higgs boson is real or not. If it is, it would be provide some support to ideas about what mass (and, therefore, gravity, which is associated mass) really is. We're still looking for experimental support that the Higgs boson is real, and now that the Large Hadron Collider is up and running, all (interested) eyes are on CERN and awaiting results.
Antimatter has been made in the LHC (Large Hadron Collider) at CERN before by smashing two of some sort of energy beams then using electromagnets to collect the antimatter before it annihilates with the matter.
The hottest temperature that is known to us, and is believed to be the hottest in the universe, is the 5.5 trillion deg Celsius created at the Large Hadron Collider (LHC) at CERN in 2012.
The first experiments were done mainly to check that the Large Hadron Collider itself worked at all. Later experiments will then do the actual data collection, from the collisions.
A Higgs Boson is a particle that is hypothesised to give other particles their mass. All fields have gauge particles, or bosons, for example, the electromagnetic field's boson is the photon. Peter Higgs' theory was that all particles that have mass are interacting with a sea of Higgs particles, and it was this interaction that gave these particles their mass. The Large Hadron Collider at CERN recently discovered a Higgs-like particle at a mass of around 125 Gigaelectronvolts.
I think all hawks are illegal to kill and trap!
With a tactical nuke and an AK47 is what i think
quoting CERN's public pages: "Where the web was born Tim Berners-Lee, a scientist at CERN, invented the World Wide Web (WWW) in 1990. The Web, as it is affectionately called, was originally conceived and developed to meet the demand for automatic information sharing between scientists working in different universities and institutes all over the world."
I think it largely is, especially at universities and organisations like IAEA and CERN, but some is of military use so secret, and some is of commercial value so produced for a client who pays for it.
Before this question may be answered properly, it must be more specific. For example, the Large Hadron Collider is in Europe. Do you mean to ask whether the founding fathers (which assumes that they all agreed on everything) would have approved the Large Hadron Collider if: ... It had been built in the United States of America; ... using public funds?