The Large Hadron Collider (LHC) is 12 stories high and cost £5b. It is buried more than 300ft under the Alpine foothills in a 17mile tunnel along the Swiss-French border.
When the giant machine gets going, the LHC will blast protons - one of the building blocks of atoms - at a velocity just shy of the speed of light, generating temperatures of more than a trillion degrees centigrade.
Each proton beam will pack as much energy as a Eurostar train travelling at 150 kilometres per hour.
In layman's terms, the LHC will take protons and smash them together at high speeds.
The resulting collisions will hopefully replicate conditions found in the moments following the Big Bang - or the beginning of the universe - and scientists will study the fallout.
And why would they want to do this, you may ask?
The Large Hadron Collider is the biggest scientific project since the Apollo astronauts went to the moon, and that's no exaggeration.
Scientists want to explore answers to such questions as: Why does the universe look the way it does? Does another dimension, or dimensions, exist? How do particles acquire mass and therefore, gravity?
Particle physicist Dr Brian Cox, from the University of Manchester - who in the 1990s played the keyboard in the chart-topping band D:Ream - will be one of the scientists eagerly studying the results.
"The Large Hadron Collider is the biggest scientific project since the Apollo astronauts went to the moon, and that's no exaggeration," he said.
"It is the most complex machine ever built, and it's going to take us to a place we've never been before.
"The whole thing is incredibly exciting and incredibly difficult."
But turning the LHC on is no small feat.
Atoms are made up of a nucleus, or centre, made up of protons and neutrons. Hovering around the nucleus in an orbit-like relationship are electrons.
So in the first steps, atoms of hydrogen will be ripped apart and its protons feed into a series of smaller accelerators to build up their speed.
The move from the final accelerator to the LHC has to be perfectly timed to ensure stability. Once completed, a second beam running in the opposite direction will be introduced and the energy level boosted.
The first particle collisions are expected to take place within a few weeks.
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