f1 to f14
Hydrogen electron configuration will be 1s1.
The electron configuration for germanium is [Ar]3d10.4s2.4p2.
The stable ions of all the elements except the Transition metals, Actinide, and Lanthanide series (that is the d and f block elements) form stable ions that are isoelectronic to a nobel gas by gaining or losing electrons in order to achieve an s2 p6 stable octet. For example, sodium will lose one electron to have the same electron configuration as neon, while nitrogen will gain three electrons to become isoelectronic to neon.
The electron configuration Xe 6s² 4f⁵ corresponds to the element Promethium (Pm), which has the atomic number 61. This configuration indicates that the element has filled xenon core (Xe) plus two electrons in the 6s subshell and five electrons in the 4f subshell. Promethium is a rare, radioactive lanthanide metal.
The electron configuration of zirconium is: [Kr]5s24d2
The element represented is gadolinium (Gd). It has 54 electrons, with the electron configuration: [Xe] 6s2 4f7.
Yttrium is often considered a lanthanide because it shares similar chemical properties with the lanthanides due to its electron configuration and position on the periodic table. It is found in the same group as the lanthanides and is often included with them in discussions of the lanthanide series.
The electron configuration for oxygen is [He]2s2.2p4.The electron configuration for sulfur is [Ne]3s2.3p4.
The electron configuration for beryllium, Be, is 1s22s2.
A cation has a depleted electron configuration.
The electronic configuration of einsteinium is: [Rn]5f11.7s2.
The electron configuration of francium is [Rn]7s1.
Hydrogen electron configuration will be 1s1.
Uranium electron configuration: [Rn]5f36d17s2
The electron configuration of beryllium is 1s2 2s2.
The electron configuration of boron is [He]2s2.2p1.
The electron configuration for germanium is [Ar]3d10.4s2.4p2.