4
4
Germanium, metalloid with a similar structure to silicon- 4 covalent bonds per germanium atomPhosphorus, the most familiar form is white phosphorus which is molecular, consisting of P4 units, each P atom has 3 covalent bonds, other allotropes are not discrete molecules but all have 3 covalent bonds per P atomSelenium This is molecular in Se8 rings each Se atom has two covalent bondsChlorine this is a diatomic gas with a single covalent bond
You can see this happen in the F2 molecule. Each fluorine atom shares a valence electron with the other fluorine atom. So there is just one covalent bond.
Germanium has 4 valence electrons in its outer shell, which allows it to form up to 4 covalent bonds.
minimum two atoms are for single covalent bond
In GeCl4 (germanium tetrachloride), there are four bonding pairs of electrons. Each chlorine atom forms a single covalent bond with germanium to satisfy its octet.
Germanium, having four valence electrons, typically forms four covalent bonds to achieve a stable electron configuration. This allows germanium to bond with other elements and create the semiconductors used in transistors and other electronic devices.
Germanium typically forms four covalent bonds due to its four valence electrons.
Germanium typically forms four covalent bonds in chemistry. It has four valence electrons, so it tends to share these electrons with other atoms to complete its octet structure.
Fluorine forms one covalent bond because it has seven valence electrons and needs one more electron to complete its octet.
Just two
In its pure form as an element, antimony (Sb) is a metal, and it therefore forms a metallic bond rather than a covalent bond.