A multimillion-dollar government project is betting that particle accelerators can "burn" through the world's most dangerous ...

The element radium can be found in extremely tiny amounts in the Earth’s crust and oceans, and in its pure form it is a soft silvery metal. To an untrained eye, a small piece of radium may look like a ...

Some nuclei of certain elements decay radioactively into nuclei of different elements. These decays can be useful or annoying depending on the context. This is especially true for potassium-40. This ...

A Chinese startup claims its new radioactive coin cell can provide power for decades. Here is why you shouldn't expect it in ...

In the quest for ultra-precise timekeeping, scientists have turned to nuclear clocks. Unlike optical atomic clocks—which rely on electronic transitions—nuclear clocks utilize the energy transitions in ...

Some atoms are stable, while others seem to fall apart. Lead-208 will probably last forever, while the synthetic isotope technetium-99 exists for just hours. The difference lies in the structure of ...

Is nuclear power the world's best hope for slowing climate change—or a high-stakes gamble that risks radioactive disaster? What if it's both? As the world seeks cleaner energy sources, nuclear energy ...

In this lesson, students will investigate the nature of radioactivity and the effect of both distance and shielding materials on different radioactive sources using a Geiger-Muller tube with a counter ...

A new map offers a new perspective on the city, revealing the steady, ever-present natural radiation emerging from the ground ...

The element radium can be found in extremely tiny amounts in the Earth’s crust and oceans, and in its pure form it is a soft silvery metal. To an untrained eye, a small piece of radium may look like a ...