I- ion (iodine ion and not iodine) and xenon will have the same number of electrons (54 electrons)
The noble gas notation for Xenon is [Kr] 4d^10 5s^2 5p^6. This notation represents the electron configuration of Xenon with the closest noble gas element, Krypton, in brackets followed by the configuration for Xenon.
There is no noble gas with the same electronic configuration as the element barium (Ba). But Ba2+ ion and the noble gas xenon (Xe) will have the same number of electrons (54 electrons each).
The noble gas configuration of cesium is [Xe] 6s1. This means that cesium has the same electron configuration as xenon for its inner electrons, followed by its valence electron in the 6s orbital.
The noble gas configuration of mercury is [Xe] 4f^14 5d^10 6s^2. Mercury is in the same period as xenon (Xe) on the periodic table, so it can achieve stability by adopting the electron configuration of xenon.
The noble gas notation for Xenon is [Kr] 4d^10 5s^2 5p^6. This notation represents the electron configuration of Xenon with the closest noble gas element, Krypton, in brackets followed by the configuration for Xenon.
I- ion (iodine ion and not iodine) and xenon will have the same number of electrons (54 electrons)
There is no noble gas with the same electronic configuration as the element barium (Ba). But Ba2+ ion and the noble gas xenon (Xe) will have the same number of electrons (54 electrons each).
The noble gas configuration of cesium is [Xe] 6s1. This means that cesium has the same electron configuration as xenon for its inner electrons, followed by its valence electron in the 6s orbital.
The noble gas configuration of mercury is [Xe] 4f^14 5d^10 6s^2. Mercury is in the same period as xenon (Xe) on the periodic table, so it can achieve stability by adopting the electron configuration of xenon.
The electron configuration of cesium in noble gas form would be [Xe] 6s^1. This indicates that cesium has the same electron configuration as the noble gas xenon in addition to one extra electron in the 6s orbital.
The noble gas configuration of holmium is [Xe] 4f^(11) 6s^2. This means that it has the same electron configuration as xenon (Xe) plus two more electrons in the 6s orbital.
The electron configuration of polonium is: [Xe]6s24f145d106p4.
[Kr] 4d10 5s2 5p6
The noble gas configuration of ytterbium is [Xe] 4f14 6s2. This means that ytterbium has the same electron configuration as xenon for the inner electron shells, and then fills the 4f and 6s orbitals in its outer shell.
The element that gains 1 electron to attain the noble gas configuration of Xenon (Xe) is iodine (I). When iodine gains an electron, it achieves a stable electron configuration with a filled outer shell, similar to that of Xenon.
Iodine accepts one electron to achieve noble gas configuration. Strontium loses two electrons to achieve noble gas configuration. Nitrogen accepts three electrons to achieve noble gas configuration. Krypton already has a noble gas configuration.