[Xe] 6s1
The condensed electron configuration for cesium (Cs), which has an atomic number of 55, is given as [Xe] 6s¹. This indicates that cesium has the same electron configuration as xenon (the noble gas preceding it) plus one additional electron in the 6s subshell.
Full form: 1s1. it doesn't have noble gas configuration as there is no noble gas before hydrogen
Transition metals such as copper, silver, and gold can form ions with a noble gas electron configuration. This occurs when they lose electrons to achieve a stable electron configuration similar to the nearest noble gas.
[Kr] 5s24d105p4
The long form electron configuration for carbon is simply 1s2 2s2 2p2. The noble gas shortcut electron configuration for C is [He] 2s2 2p2.
The condensed electron configuration for cesium (Cs), which has an atomic number of 55, is given as [Xe] 6s¹. This indicates that cesium has the same electron configuration as xenon (the noble gas preceding it) plus one additional electron in the 6s subshell.
Full form: 1s1. it doesn't have noble gas configuration as there is no noble gas before hydrogen
Cesium typically forms Cs+ ions, which have a +1 charge. This occurs because cesium readily loses its single valence electron to achieve a more stable electron configuration.
Cesium loses just one electron to form Cs+
Transition metals such as copper, silver, and gold can form ions with a noble gas electron configuration. This occurs when they lose electrons to achieve a stable electron configuration similar to the nearest noble gas.
They achieve the electron configuration of a noble gas.
[Kr] 5s24d105p4
The long form electron configuration for carbon is simply 1s2 2s2 2p2. The noble gas shortcut electron configuration for C is [He] 2s2 2p2.
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.
Cesium has a charge of +1, meaning it loses one electron to achieve a stable electronic configuration. It belongs to group 1 of the periodic table and readily donates its electron to form ionic compounds with other elements.
They have one valence electron. If this electron is lost, the atoms form cations with the electronic configuration of the nearest noble gas.
When cesium forms an ion, it loses 1 electron to form the Cs+ cation. This is very easy for cesium to do because of its very low electronegativity, which is a measure of the attraction between the nucleus and the electrons.