Nonpolar covalent.
Fluorine's electronegativity is 3.98. The difference between two fluorine atoms is 0, so the bond between two fluorine atoms is nonpolar covalent.
The alkali metal potassium and the halogenfluorine will form an ionic bond.
Covalent bond
Fluorine atoms have a covalent bond between each other to form a covalent molecule. Fluorine bonded to a metal will have ionic bonds. Fluorine bonded to a non-meatl will have polar covalent bonding.
The bond between carbon and fluorine is covalent. Carbon only forms covalent bonds, in all cases.
fluorine and silicon form a perdominately ionic bond. fluorine is a nonmetal and silicon is a metal.
Ionic bond, as the difference in electronegativity between calcium and fluorine is over 1.7
Fluorine's electronegativity is 3.98. The difference between two fluorine atoms is 0, so the bond between two fluorine atoms is nonpolar covalent.
Fluorine atoms have a covalent bond between each other to form a covalent molecule. Fluorine bonded to a metal will have ionic bonds. Fluorine bonded to a non-meatl will have polar covalent bonding.
covalent bond
It forms a covalent bond.
The alkali metal potassium and the halogenfluorine will form an ionic bond.
Covalent bond
They can be expected to form ionic bonds.
ionic bonds
Fluorine atoms have a covalent bond between each other to form a covalent molecule. Fluorine bonded to a metal will have ionic bonds. Fluorine bonded to a non-meatl will have polar covalent bonding.
The bond between carbon and fluorine is covalent. Carbon only forms covalent bonds, in all cases.