Asteroids in the solar system could contain undiscovered, superheavy elements

Asteroids in the solar system could contain undiscovered, superheavy elements

For centuries, the quest for new elements was a driving force in many scientific disciplines. Understanding an atom’s structure and the development of nuclear science allowed scientists to accomplish the old goal of alchemists – turning one element into another.

Over the past few decades, scientists in the United States, Germany and Russia have figured out how to use special tools to combine two atomic nuclei and create new, superheavy elements.

The heaviest element on the periodic table has 118 protons. (Image credit: Humdan/Shutterstock)

These heavy elements usually aren’t stable. Heavier elements have more protons, or positively charged particles in the nucleus; some that scientists have created have up to 118. With that many protons, the electromagnetic repulsive forces between protons in the atomic nuclei overwhelm the attractive nuclear force that keeps the nucleus together.

Scientists have predicted for a long time that elements with around 164 protons could have a relatively long half-life, or even be stable. They call this the “island of stability” – here, the attractive nuclear force is strong enough to balance out any electromagnetic repulsion.

Scientists at Lawrence Berkeley National Laboratory have constructed experiments that can weigh superheavy elements. (Image credit: Marilyn Chung, Lawrence Berkeley National Laboratory)

Since heavy elements are difficult to make in the lab, physicists like me have been looking for these elements everywhere, even beyond the Earth. To narrow down the search, we need to know what sort of natural processes could produce these elements. We also need to know what properties they have, like their mass densities.

Calculating density

rana00

Leave a Reply

Your email address will not be published. Required fields are marked *