The dispersion measure is used to construct models of the free electron distribution in the Milky Way Galaxy.

This is allowed, if the electron distribution of the ion is spherically symmetric.

We can therefore signify the electron distribution in the aluminum atom as 2,8,3.

This means that, with appropriately arranged samples, one could look at the electron distributions of single molecules at a fixed orientation.

This comes from a combination of classical electrostatics and some quantum fluctuations of the electron distributions.

More broadly, the term describes electron distributions describable by the Fermi function, but with an elevated effective temperature.

Formal charge is a test to determine the efficiency of electron distribution of a molecule.

This leaves the surface atoms without a neighboring atom on one side, which inherently alters the electron distribution.

The shift in electron distribution gives electrons the extra push they need to get through the bulbs.

This wide electron distribution is the principal source of image aberration in the microscope.