ChatterBank0 min ago
valencies
In the periodic table the valency of the elements in group 1 is 1, group 2 is 2, group 3 is 3 and so on.
Electron arrangement: 2 electrons in the first shell and eight electrons in each shell thereafter.
so..........if caesium is in group 1 it has a valency of 1. However it's atomic number is 55 therefore it has 55 electrons. 2 in the first shell, 8 in the 2nd, 8 in the 3rd, 8 in the 4th, 8 in the 5th, 8 in the 6th, 8 in the 7th leaving 5 in the outer shell. It would appear then that it needs to gain 3 electrons to achieve stability so it's valency should be 3 not 1???
Answers
No best answer has yet been selected by evolution. Once a best answer has been selected, it will be shown here.
For more on marking an answer as the "Best Answer", please visit our FAQ.The electron levels are sub-divided into s,p,d and f orbitals. There are only s obitals in the 1st level, s and p orbitals in the 2nd; s,p & d in the 3rd; and s,p,d and f in the 4th and subsequent levels.
s,p and d orbitals can hold 2,6 and 10 electrons respectively.
Thus for the 55 electrons of caesium, they are arranged;
1st level 2 x s electrons
2nd level 2 x s elctrons
6 x p electrons
3rd level - 2 x s
6 x p
10 x d
4th level - 2 x s
6 x p
10 x d
The next electrons go into the 5s and 5p orbitals, as they are at a lower energy state than the 4f, hence;
5th level - 2 x s
6 x p
And for the same reason, the last electron goes into the 6s level;
6th level 1 x s
This is your unpaired valency electron for a Group I metal. (And where I hope it all adds up to 55 !!)