Covalent bond
Nitrogen (N2) is less reactive than fluorine (F2) because the triple bond in diatomic nitrogen requires much more energy to break than the single bond in diatomic fluorine. This means that there is a much greater energy requirement to dissociate two nitrogen atoms from each other than two fluorine atoms, making nitrogen far less reactive than fluorine.
A "hydrogen bond" - a intermolecular force caused by large difference in electronegativity. [Hydrogen has a very low electronegativity whilst Fluorine, Oxygen and Nitrogen all have a very high electronegativity so an electrostatic attraction exists]
triple bond between the nitrogen atoms
As fluorine, oxygen and nitrogen do, the bond polarity in a -H-Cl bond is not adequate to form hydrogen bonds.
An Ionic Bond.
the element that fluorine bonds with are nitrogen, oxygen, and many more
Nitrogen and fluorine are both nonmetals so that makes the bond a covalent bond. It's not hard.
Carbon to fluorine.
Nitrogen (N2) is less reactive than fluorine (F2) because the triple bond in diatomic nitrogen requires much more energy to break than the single bond in diatomic fluorine. This means that there is a much greater energy requirement to dissociate two nitrogen atoms from each other than two fluorine atoms, making nitrogen far less reactive than fluorine.
A "hydrogen bond" - a intermolecular force caused by large difference in electronegativity. [Hydrogen has a very low electronegativity whilst Fluorine, Oxygen and Nitrogen all have a very high electronegativity so an electrostatic attraction exists]
A hydrogen bond is a type of chemical bond. A hydrogen atom bonds with either a nitrogen, fluorine, or oxygen atom to make a weak bond.
Polar covalent bond. Due to fluorine´s high electronegativity, the bond has a significant dipole moment. This bond is the strongest bond that can be formed in organic chemistry.
triple bond between the nitrogen atoms
As fluorine, oxygen and nitrogen do, the bond polarity in a -H-Cl bond is not adequate to form hydrogen bonds.
Nitrogen, Oxygen and Fluorine
An ionic bond
Any chemical with bonds with hydrogen connecting to nitrogen, oxygen, and fluorine.