You can decrease the bond order of a molecule like F2 or B2 by adding 1 electron to the neutral molecule.
Bond order is the number of bonds. For a diatomic molecule e.g O2 has bond order two because O=O is a double bond.
Diatomic oxygen has 6 valence electrons each and so has to share 2 pairs in order to satisfy the octet rule.
No. The bond order of a molecule depends on the center atom itself. For example, the bond order of carbon is 4, Nitrogen 3,etc.
1.5
No. First, lead is not organic as in order to be organic a compound most contain carbon and hydrogen. Lead is an element that contains only itself. Second, since it is a metal lead exists as individual atoms, not molecules.
The bond order of CO plus is actually 3.5. Remember that the order of orbitals in CO+ is not the same as in a homonuclear diatomic molecule.
Bond order is the number of bonds. For a diatomic molecule e.g O2 has bond order two because O=O is a double bond.
Diatomic oxygen has 6 valence electrons each and so has to share 2 pairs in order to satisfy the octet rule.
one
Chlorine has 7 electrons, so in order to both have 8, they need to share 2 electrons.:)
greater the bond order, greater is the stability of the molecule.
Being a metal, lithium does not form diatomic molecules. The lithium atoms are bound one to another by the "delocalized electron cloud" that exists to form the metallic bond. In a way, you could imagine that a chunk of metal behaves as one huge molecule where all of the atoms share electrons.
Oxygen has 8 protons. In order to be balanced, it has to have 8 electrons.However, due to the electron shell structure and rules of co-valency, oxygen does not normally exist by itself. The most common form is O2, having 16 electrons per diatomic oxygen molecule.
No. The bond order of a molecule depends on the center atom itself. For example, the bond order of carbon is 4, Nitrogen 3,etc.
1.5
energy
The molecule that binds to myosin, which causes it to disconnect, is an ATP molecule