Looks like copper.
The electron configuration of palladium is [Kr]4d10.
Elements in the same family of the periodic table have the same number of valence electrons. For light elements this amounts to the same electron configuration, but for heavier elements this is not necessarily the case, e.g. Ni: [Ar]4d8 5s2 ; Pd: [Kr] 5d10 ; Pt: [Xe] 6d9 7s1 .However the whole underlying reason for the periodic law involves the number of valence electrons, and this is expressed in the periodic table.
The electron configuration of copper is 1s22s22p63s23p63d104s1.
Because emission spectrum are the result of the electron configuration of the element and no two elements have exactly the same electron configuration.
Other elements can acquire a noble gas configuration by either gaining or losing electrons. Elements on the left side of the periodic table, such as alkali metals, tend to lose electrons to achieve a noble gas configuration. Elements on the right side of the periodic table, such as halogens, tend to gain electrons to achieve a noble gas configuration. Elements in the middle of the periodic table may gain or lose electrons to acquire a noble gas configuration, depending on the specific element and its properties.
The electron configuration of palladium is [Kr]4d10.
The electron configuration of copper is: [Ar]4s13d10. It isn't 4s23d9 because Cu is able to obtain a more stable electron configuration when it takes an electron from the 4s and adds it to 3d. A half filled 4s and a completely filled 3d is more stable.
The electron configuration for copper is 1s22s22p63s23p63d104s1 because copper preferentially fills its d orbital before the s orbital to achieve a more stable half-filled d shell. This configuration results in lower overall energy for the atom, making it more energetically favorable.
Elements in the same family of the periodic table have the same number of valence electrons. For light elements this amounts to the same electron configuration, but for heavier elements this is not necessarily the case, e.g. Ni: [Ar]4d8 5s2 ; Pd: [Kr] 5d10 ; Pt: [Xe] 6d9 7s1 .However the whole underlying reason for the periodic law involves the number of valence electrons, and this is expressed in the periodic table.
The electron configuration of copper is 1s22s22p63s23p63d104s1.
Only group 18 elements have noble gas configuration. All other elements lack a noble gas electronic configuration.
Magnesium
Electron configuration is a term applied to chemical elements not to compounds.
The configuration of various elements
The configuration of various elements
By acquiring noble gas configuration elements become stable .
Yes it is.