The electron configuration of zirconium is: [Kr]5s24d2
The chemical element with the atomic number 41 is niobium; the electron configuration is:[Kr]4d4.5s1.
[Kr] 5s2 4d2
[Kr]
[Kr] 5s2
The electron configuration of zirconium is: [Kr]5s24d2
The electron configuration for an atom of silver is [Kr] 5s^1 4d^10. This indicates that silver has one electron in the 5s orbital and 10 electrons in the 4d orbital, following the noble gas configuration of krypton.
Tin typically has a configuration of [Kr] 5s^2 4d^10 5p^2 when it is a neutral atom. If tin forms an ion by losing two electrons, it would have a configuration of [Kr] 5s^2 4d^10, as it would lose its two outermost electrons from the 5p orbital.
There are 2 electrons in the highest occupied energy level of a neutral strontium atom, as the electron configuration of strontium is [Kr]5s^2.
Electron configuration is a term applied to chemical elements not to compounds.
Sr, Strontium (atomic number 38)
The electron configuration of Xenon is [Kr] 4d10 5s2 5p6.
This electron configuration corresponds to the element Palladium (Pd), which has the atomic number 46. It has the electron configuration [Kr] 5s2 4d10.
The chemical element with the atomic number 41 is niobium; the electron configuration is:[Kr]4d4.5s1.
No, the electron configuration is incorrect. The correct electron configuration for an element with 52 electrons would be Kr 5s2 4d10 5p6.
The electron configuration of technetium is [Kr]4d5.5s2.
The trivalent ion with the electron configuration of Kr 4d^3 is the Yttrium (Y^3+) ion. Yttrium differs from krypton (Kr) by losing three electrons to achieve the electron configuration of Kr 4d^3.