WHAT WOULD HAPPEN IF EVERY ELEMENT OF THE PERIODIC TABLE CAME INTO CONTACT SIMULTANEOUSLY?

There are two ways that theoretically could check this: combine simple atoms of each element or 

collect a portion of each element in its natural state and see what happen. But neither is practical ways. The first part requires the energy of dozens of Large Hadron Collider. And the other could cause a cauldron full of burning plutonium. In any case, surely both would end up creating carbon monoxide and a

lot of salts and oxidation, rather than a sympathetic Frankestein element.

If we add simple atoms of each element in a box, they will not form a super molecule containing an atom of each element, explains Mark Tuckerman, a theoretical chemist at the University of New York. The atom consists of a core of neutrons and protons with a certain number of electrons orbiting around molecules, that are formed when electron orbits overlap and merge atoms. Oxygen, for example, is very reactive, and if it is near the hydrogen form the hydroxide. If you are near the coal, will form carbon monoxide around.

Some elements, such as noble gases do not react with anything, so we could stay with them and with some common molecules of two or three atoms.

What if the crush each other with force?

We could try that all atoms will impact each other in a particle accelerator but still, do they hit 99% of speed of light at the maximum speed that can reach a Grand Collider, perhaps merge some nuclei, but neither form Frankestein that element.