The atomic radius decreases along the elements across a period. Along a group, there is an increment in the atomic radius of corresponding elements.
electron configuration
It is in group 17.
The condensed electron configuration of rubidium is [Kr] 5s1 in the 1st group of period V
Electron Configuration
Radon!
Electron configuration is the arrangement of elements according to their increasing atomic numbers whiles period is the arrangement of elements according to the increasing number of valence electrons.
electron configuration
Sulfur is the group 16, period 3 chemical element. Thus, its electron configuration is 1s2 2s2 2p6 3s2 3p4. Another way to write this is [Ne] 3s2 3p4 since the initial portion of the configuration is the same as neon's.
It is in group 17.
1s2s2p3s3p4s4p5s5p6s6p
Fr is in the 1st period. It removes an electron to get noble gas configuration. Fr+ does not have valence electrons.Francium has 1 electron in its outermost energy level. It donates its outermost electron to stabilize its electron configuration. Francium(I) has no valence electrons.
Electron configuration of rubidium is 1s2, 2s2, 2p6, 3s2, 3p6, 3d10, 4s2,4p6, 5s1 Electrons per shell 2,8,18,8,1 Electron configuration is also represented by [Kr], 5s1. Atomic No. 37, It is Group 1 Alkali metals Period 5 It is an s-block element.
The condensed electron configuration of rubidium is [Kr] 5s1 in the 1st group of period V
Electron Configuration
Radon!
Depending on the editor of the periodic table: name, symbol, atomic number, density, electron configuration, group, period, melting point, boiling point etc.
Neon is in the 2d period so the 2s and 2p are filled- it is anoble gas so it is the last one in the period. 1s2; 2s2, 2p6