No, the triple N-N bonds must be all covalent because there is no difference in elecron attraction (electro-negativity) between the one and the other N atom
(All elemental atoms of one kind have the same chemical properties, only the mass can be different (in the case of isotopes)).
Nitrogen will form a non polar bond to another nitrogen, a polar bond to other atoms with different electronegativity. In NH3 N is the most electronegative, in NF3 it is F that is the most electronegative.
No, a sugar molecule does not have a polar bond to a gasoline molecule. Sugar molecules mostly contain polar hydroxyl groups, while gasoline molecules are nonpolar hydrocarbons. Therefore, they do not form polar bonds with each other.
To form a covalent bond between sulfur and nitrogen, sulfur and nitrogen atoms can share electron pairs. Sulfur has six valence electrons and nitrogen has five valence electrons, so they can each contribute one electron to form a single covalent bond. This results in the formation of a molecule such as sulfur dioxide (SO2) or nitrogen sulfide (NS).
Oxygen and nitrogen typically form a covalent bond when they bond together. In this type of bond, the atoms share electrons to achieve a full outer electron shell and form a stable molecule.
A Nitrogen molecule are two atoms of Nitrogen bonded by a covalent bond. The Nitrogen molecule is represented as N2.
Nitrogen will form a non polar bond to another nitrogen, a polar bond to other atoms with different electronegativity. In NH3 N is the most electronegative, in NF3 it is F that is the most electronegative.
it forms a triple bond
polar covalent
No, a sugar molecule does not have a polar bond to a gasoline molecule. Sugar molecules mostly contain polar hydroxyl groups, while gasoline molecules are nonpolar hydrocarbons. Therefore, they do not form polar bonds with each other.
it forms a triple bond
Nitrogen is both an element and a molecule. In molecular form, Nitrogen forms a binary molecule N2 with a triple bond between the two Nitrogen atoms.
No. Fluorine is an element. Two atoms of the same element will not form a polar bond because there is no difference in electronegativity.
To form a covalent bond between sulfur and nitrogen, sulfur and nitrogen atoms can share electron pairs. Sulfur has six valence electrons and nitrogen has five valence electrons, so they can each contribute one electron to form a single covalent bond. This results in the formation of a molecule such as sulfur dioxide (SO2) or nitrogen sulfide (NS).
Oxygen and nitrogen typically form a covalent bond when they bond together. In this type of bond, the atoms share electrons to achieve a full outer electron shell and form a stable molecule.
A Nitrogen molecule are two atoms of Nitrogen bonded by a covalent bond. The Nitrogen molecule is represented as N2.
A nitrogen atom contains three valence electrons so a nitrogen molecule N2 will form a triple covalent bond.
When two nitrogen atoms share a bond, they form a nitrogen molecule (N2). Each nitrogen atom contributes one electron to the bond, creating a stable diatomic molecule. This bond is highly stable, making nitrogen gas (N2) very inert under normal conditions.