Comparing d-block elements with s & p-block elements, it does have smaller atomic radii because of the richness in electrons & protons.
Fluorine, chlorine, bromine, iodine, and astatine have 7 valence electrons.
S block elements- valence electrons are filling the s orbitals D block elements- valence electrons are filling the d orbitals P block elements- valence electrons are filling the p orbitals F block elements- valence electrons are filling the f orbitals
Lead has 82 electrons. It also has four valence electrons, two s- electrons and two p- electrons in its orbitals.
group 13 period 4
Polonium is in the p block. It has 84 protons in a single atom.
Elements which have their valency electrons in the p sub shell belong to this. Elements of groups 13,14,15,16,17,18 are in p block.
Bromine fills it's valency electrons in the p sub shell. Therefor Br is in the p block.
As is a p block element in period 4 and group 5A, so it has 5 valence (outer) electrons (4s2 4p3).
The group 17 of p block has 7 valent electrons. These elements are called halogens.
P has 15 electrons P- has 16 electrons (but isn't stable)
Germanium is the element with 32 electrons. It was found in Germany. It is in the p block.
The number of electrons depends on the element and it may vary from 1 to 2 (for s block elements), 3 to 8 (for p block elements), 1 to 10 for d block elements and 1 to 14 (fro f block elements).
Always the S and the P block.
Silicon is p-block element. It has 4 valence electrons. It is present in group-14.Titanium has 4 valence electrons. It is in the third period. Titanium is a metal element.
Phosporus is a p block element too. AN ATOM HAS 15PROTONS AND NEUTRONS.
transition metals have electrons in d orbitals that take part in bonding. T the s and p block elements have no d electrons that take part in bonding, the bonding electrons are all in s and p orbitals. The period 3 and above s and p block elements do have empty d orbitals that take part in bonding.