CERN legend stuff of angels and demons
http://www.abc.net.au/science/articles/2008/04/08/2211092.htm
Back in the old days before terrorists and tsunamis, it was always the lab coat-wearing mad scientists who were going to destroy the Earth in one of their crazy experiments.
In the movies, scientists were always the ideal scapegoats: bald (apart from two tufts of hair), certifiably mad and without a friend in the world. Well, scientists are back in the firing line again.
As the Large Hadron Collider (LHC) in Europe gets closer to completion, there is a paranoid groundswell telling the world that this science experiment will unleash uncontrollable forces, wreck the planet and kill us all.
The LHC has actually been designed to answer some of the big questions in physics, such as, what is mass. There are so many questions. For example, think about some of the subatomic particles, such as electrons and quarks. They are just points, they have no size. And in between them, there is a vacuum.
So these subatomic particles are mathematical figments floating in nothing. Even worse, these mathematical figments have weird properties like charge, and mass.
The LHC, when it switches on in late 2008, will help solve some of these crazy mysteries. To do this, it will recreate some of the titanic energies found immediately after the Big Bang.
The 'large' in LHC is not an exaggeration. It's enormous. It's an underground tunnel, shaped like a ring that straddles the borders of Switzerland and France.
Over 2500 scientists from 37 countries are labouring to build just one of its four detectors, which by itself, has more iron in it than the Eiffel Tower. The LHC will generate so much raw data that if it were stored on CDs, the stack would grow at 1.6 kilometres per month. The project will employ about half of all the particle physicists in the world.
Its name tells you what it does. 'Hadrons' are microscopic particles (such as the protons or neutrons in the core of an atom) that in turn, are made of even smaller subatomic particles.
The LHC will collide beams of protons together. And hopefully the products of the collision will include the long sought after Higgs particle, which is thought to endow everything in the universe with the strange property we call 'mass'.
The protons will travel at 99.99991 per cent of the speed of light through pipes 27 kilometres in circumference, buried 50 to 100 metres underground. At that speed, the protons will have the energy of an express train.
They will be kept travelling in a curved path by the largest array of superconducting magnets ever built, cooled by 130 tonnes of liquid helium. The liquid helium will be colder than the temperature of deep space.
You've probably heard that mass and energy can be turned into each other. In a nuclear weapon, a small amount of mass is turned into a huge amount of energy.
In the LHC, the opposite happens. Energy is turned into mass. In a bizarre example of how mass and energy can be interchanged, two small fast-moving protons will collide to make much heavier, slower particles, as though two nippy Cessna planes collided to make a lumbering bus.
The energy in the 'speed' of the protons will hopefully be converted to the mass of the Higgs particle.
Over the last decade, uninformed scare-mongers have spread disaster scenarios, with the LHC destroying the Earth, and even the universe. They say (quite correctly) that it's theoretically possible for the LHC to create mini black holes.
They then conveniently ignore the rest of the same theory that points out that the black holes would evaporate almost immediately. Instead, they wrongly claim that the mini-black holes would rapidly eat the Earth.
The scaremongers also claim that the colliding protons in the LHC have enormous energies, and so something totally unforeseen in our current theories might happen.
Well, cosmic rays with energies many tens of millions of times greater than the speeding protons in the LHC have been smashing into all the planets and moons in our solar system for billions of years, and we're all still here.
So let's give it a whirl, and see what we find.
http://www.abc.net.au/science/articles/2008/04/08/2211092.htm
Back in the old days before terrorists and tsunamis, it was always the lab coat-wearing mad scientists who were going to destroy the Earth in one of their crazy experiments.
In the movies, scientists were always the ideal scapegoats: bald (apart from two tufts of hair), certifiably mad and without a friend in the world. Well, scientists are back in the firing line again.
As the Large Hadron Collider (LHC) in Europe gets closer to completion, there is a paranoid groundswell telling the world that this science experiment will unleash uncontrollable forces, wreck the planet and kill us all.
The LHC has actually been designed to answer some of the big questions in physics, such as, what is mass. There are so many questions. For example, think about some of the subatomic particles, such as electrons and quarks. They are just points, they have no size. And in between them, there is a vacuum.
So these subatomic particles are mathematical figments floating in nothing. Even worse, these mathematical figments have weird properties like charge, and mass.
The LHC, when it switches on in late 2008, will help solve some of these crazy mysteries. To do this, it will recreate some of the titanic energies found immediately after the Big Bang.
The 'large' in LHC is not an exaggeration. It's enormous. It's an underground tunnel, shaped like a ring that straddles the borders of Switzerland and France.
Over 2500 scientists from 37 countries are labouring to build just one of its four detectors, which by itself, has more iron in it than the Eiffel Tower. The LHC will generate so much raw data that if it were stored on CDs, the stack would grow at 1.6 kilometres per month. The project will employ about half of all the particle physicists in the world.
Its name tells you what it does. 'Hadrons' are microscopic particles (such as the protons or neutrons in the core of an atom) that in turn, are made of even smaller subatomic particles.
The LHC will collide beams of protons together. And hopefully the products of the collision will include the long sought after Higgs particle, which is thought to endow everything in the universe with the strange property we call 'mass'.
The protons will travel at 99.99991 per cent of the speed of light through pipes 27 kilometres in circumference, buried 50 to 100 metres underground. At that speed, the protons will have the energy of an express train.
They will be kept travelling in a curved path by the largest array of superconducting magnets ever built, cooled by 130 tonnes of liquid helium. The liquid helium will be colder than the temperature of deep space.
You've probably heard that mass and energy can be turned into each other. In a nuclear weapon, a small amount of mass is turned into a huge amount of energy.
In the LHC, the opposite happens. Energy is turned into mass. In a bizarre example of how mass and energy can be interchanged, two small fast-moving protons will collide to make much heavier, slower particles, as though two nippy Cessna planes collided to make a lumbering bus.
The energy in the 'speed' of the protons will hopefully be converted to the mass of the Higgs particle.
Over the last decade, uninformed scare-mongers have spread disaster scenarios, with the LHC destroying the Earth, and even the universe. They say (quite correctly) that it's theoretically possible for the LHC to create mini black holes.
They then conveniently ignore the rest of the same theory that points out that the black holes would evaporate almost immediately. Instead, they wrongly claim that the mini-black holes would rapidly eat the Earth.
The scaremongers also claim that the colliding protons in the LHC have enormous energies, and so something totally unforeseen in our current theories might happen.
Well, cosmic rays with energies many tens of millions of times greater than the speeding protons in the LHC have been smashing into all the planets and moons in our solar system for billions of years, and we're all still here.
So let's give it a whirl, and see what we find.