HNNH, it has a double bond while H2NNH2 has a single, and doubles are stronger than single bonds, just as triple is stronger than double.
HNNH has the shorter nitrogen-nitrogen bond because it has a triple bond between the nitrogen atoms, which is shorter and stronger than the single bond in H2NNH2.
HNNHThe first compound(H2NNH2) has a single bong between the nitrogen atoms and follows the octet rule allowing nitrogen's orbital to hold 8 electrons. The second compound (HNNH) requires nitrogen to be double bonded. Double bonds are stronger than single bonds.Source:Yahoo Answers
The mean bond enthalpy of a nitrogen-nitrogen bond is approximately 945 kJ/mol.
triple bond between the nitrogen atoms
Nitrogen and fluorine form a covalent bond, specifically a single covalent bond in the case of nitrogen tetrafluoride (NF3) or a triple covalent bond in the case of nitrogen trifluoride (NF3). This means they share electrons to achieve a stable electron configuration.
HNNH has the shorter nitrogen-nitrogen bond because it has a triple bond between the nitrogen atoms, which is shorter and stronger than the single bond in H2NNH2.
HNNHThe first compound(H2NNH2) has a single bong between the nitrogen atoms and follows the octet rule allowing nitrogen's orbital to hold 8 electrons. The second compound (HNNH) requires nitrogen to be double bonded. Double bonds are stronger than single bonds.Source:Yahoo Answers
The N-N bond in H2NNH2 (hydrazine) is stronger than in HNNH (diazene). This is because hydrazine has a longer N-N bond length, allowing for more electron-electron repulsion, which strengthens the bond. Diazene has a shorter N-N bond with less electron-electron repulsion, resulting in a weaker bond.
The isomers for HNNH are diazomethane (CH2N2) and isocyanogen (C2N2). Diazomethane has a linear structure with a nitrogen-nitrogen single bond, while isocyanogen has a triple bond between nitrogen atoms.
In H-N=N-H are 2 sigma's (-) between N and H,and there are 1 pi bond + 1 sigma (=) between N and N
Among the molecules or ions NO, NO2, and NO3, the molecule with the strongest nitrogen-oxygen bond is NO3.
The diatomic molecule with the strongest covalent bond is nitrogen (N2). Nitrogen has a triple bond, which consists of three pairs of shared electrons between the two nitrogen atoms. This bond is very strong and stable, making nitrogen a very unreactive molecule.
The strongest covalent bond is the triple bond, which consists of three shared pairs of electrons between two atoms. This bond is stronger than single and double bonds due to the increased electron density and shorter bond length. Triple bonds are commonly found in molecules like nitrogen gas (N2) or carbon monoxide (CO).
I think: H2CCH2 H H | | C_C | | H H H2NNH2: H-H-:N-N:-H-H Two Nitrogen atoms connected by single bond with a lone pair and 2 Hydrogen atoms at each ends
The strongest intermolecular forces that would exist between molecules of NO would be dipole-dipole attractions. There are no hydrogen bonds formed, and so dipole-dipole would be the strongest. There will also be dispersion forces, but these are weaker than dipoles.
The strongest intermolecular bond is the hydrogen bond, which forms between a hydrogen atom bonded to an electronegative atom (like oxygen or nitrogen) and another electronegative atom. Hydrogen bonds are stronger than dipole-dipole interactions and London dispersion forces.
A hydrogen bond is the strongest type of intermolecular forces. It occurs whenever there is a bond between hydrogen and either fluorine, oxygen, or nitrogen.