Within every cell (except red blood cells) is a nucleus -- a sphere-like structure separated from the rest of the cell by a membrane. The nucleus acts as the cell's control center, regulating its ...

After tracing many particles and examining the patterns, Rutherford deduced that the atom must have nearly all its mass, and positive charge, in a central nucleus about 10,000 times smaller than ...

Electronic structure can be shown as a list of numbers or as a diagram. Take lithium for example. The diagram above shows each shell as a circle around the nucleus, with each of the three ...

However, its exact location within a cell depends on whether that cell possesses a special membrane-bound organelle called a nucleus ... Beyond the ladder-like structure described above, another ...

The following master data elements and financial structure are clearly defined. It is important for finance staff to understand what each element represents, how elements are classified and are used ...

The claustrum complex, a small yet powerful region in the brain, has intrigued scientists for years. Found across mammalian ...

The results of the described studies open up new perspectives for a better understanding of the structure of the atomic nucleus, unifying its high- and low-energy aspects. More information ...

Scientists demonstrated a new way to use high-energy particle smashups at the Relativistic Heavy Ion Collider (RHIC), a world ...

The histone proteins of complex cells are named H2A, H2B, H3 and H4. They are assembled into groups of eight, around which a ...

CERN researchers have presented strong evidence for the "doubly magic" nature of Tin-100, a rare isotope with exceptional stability.