beta-plus decay does the reverse and turns protons into neutrons. To understand what this, and the weak force, is all about, we first need to mention the strong nuclear force. The strong force ...

For instance, the researchers identified that the corrections to superallowed beta decay come from how the atomic nucleus itself is structured. These corrections depend on how the weak force ...

The weak force is seen in radioactive decay and neutrino interactions. As the name suggests, the nuclear weak force is weaker than the strong and electromagnetic force. Its weaker strength ...

That at least is the case with the strong nuclear force, one of four fundamental forces of nature (the others being electromagnetism, gravity and the weak nuclear ... does not decay – a basic ...

Like stretch marks left on skin that expanded too quickly or cracks embedded in freezing ice, cosmic strings are artifacts of what the universe looked like in the moments before it rapidly changed ...

^{4}\textrm{He}\) When a radioactive atom emits an alpha particle the mass number decreases by four and the atomic number drops by two. Here is the equation for the alpha decay of radon-219 into ...

"LEP is the boundary between the quantum strong Mpemba effect and weak Mpemba effect, which means we build a link between the Mpemba effect and the LEP," explained the team. At the LEP, the decay ...

Hypernuclei are rare, short-lived atomic nuclei made up of protons ... Just a few hundred picoseconds after being formed in collisions, antihypernuclei will decay via the weak force – creating two or ...

They are gravity, electromagnetism, the weak nuclear force that causes particle decay, and the strong nuclear force that binds quarks into atoms. Together, these have become the standard model of ...