Under normal circumstances, it should only form one covalent bond.
One single covalent bond. F is in group 17, and has 7 valence electrons and requires to share 1 to achieve the octet.
Just one. Fluorine has 7 electrons in its outermost shell so sharing an electon with another atom in a covalent bond takes its shell up to 8, the noble gas configuration. The covalent bonds that luorine forms are generally highly polar because of fluorines high electronegativity. This is an example of the "octet" rule.
Fluorine typically forms one covalent bond because it has seven valence electrons and needs one more electron to complete its octet. By sharing one electron with another atom, fluorine can achieve a stable electron configuration.
Hi there,If i am right the bonds formed between any atoms depend on the satisfaction of Octet rule. So as the fluorine atom has seven electron in the last shell it well be needing one more to complete its octet.So it will share that electron from the other fluorine.. End of the process the answer is definitely ONE COVALENT BONDbetween two fluorine atoms..
Two fluorine atoms are needed to form an ionic bond with calcium, as each fluorine atom will contribute one electron to satisfy calcium's two valence electrons.
Two fluorine atoms each have 7 valence electrons, so they will share one electron to form a single covalent bond. Therefore, two fluorine atoms will form a single covalent bond between them.
Fluorine can make one covalent bond, as it has seven valence electrons and needs one more electron to complete its octet.
One single covalent bond. F is in group 17, and has 7 valence electrons and requires to share 1 to achieve the octet.
Fluorine has seven electrons. Fluorine will form covalent and ionic bonds. Ionic- If it combines with any metal Covalent- If it bonds with a non-metal
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Fluorine has 7 valence electrons in its outer shell. In order to achieve a full octet, fluorine needs one additional electron to fill its shell. This means that fluorine has 1 bonding electron available to form covalent bonds with other atoms.
minimum two atoms are for single covalent bond
Fluorine can form one bond with another atom because it has one unpaired electron in its outer shell. This electron can pair up with the unpaired electron of another atom to form a single covalent bond.
Just one. Fluorine has 7 electrons in its outermost shell so sharing an electon with another atom in a covalent bond takes its shell up to 8, the noble gas configuration. The covalent bonds that luorine forms are generally highly polar because of fluorines high electronegativity. This is an example of the "octet" rule.
Fluorine typically forms one covalent bond because it has seven valence electrons and needs one more electron to complete its octet. By sharing one electron with another atom, fluorine can achieve a stable electron configuration.
Hi there,If i am right the bonds formed between any atoms depend on the satisfaction of Octet rule. So as the fluorine atom has seven electron in the last shell it well be needing one more to complete its octet.So it will share that electron from the other fluorine.. End of the process the answer is definitely ONE COVALENT BONDbetween two fluorine atoms..
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