3
covalent
The bond order in a covalent bond is equal to the number of electron pairs shared between two atoms in the bond. This can be determined by counting the number of bonding electrons divided by two. The bond order helps predict the bond length and bond strength in a molecule.
C6H10 + 2Br2 = C6H10Br4 C6H10 is an alkyne with a triple bond-- the reactivity of alkynes to halogens is dfficult to predict as the addition across the triple bond of the first bromine atom reduces the nuclephilicity of the bond slowing down the second adition.
The bond order of NO is 2.5
1/2
covalent
The bond order in a covalent bond is equal to the number of electron pairs shared between two atoms in the bond. This can be determined by counting the number of bonding electrons divided by two. The bond order helps predict the bond length and bond strength in a molecule.
Predict what
Yes, bond order can be determined for molecules with four or more atoms. Bond order is a measure of the number of chemical bonds between a pair of atoms in a molecule and can help predict the molecule's stability and reactivity. It is calculated by taking the average number of bonds between two atoms in a molecule.
Sperm whale
C6H10 + 2Br2 = C6H10Br4 C6H10 is an alkyne with a triple bond-- the reactivity of alkynes to halogens is dfficult to predict as the addition across the triple bond of the first bromine atom reduces the nuclephilicity of the bond slowing down the second adition.
The bond order of NO is 2.5
1/2
The bond order of NO is 2.5
yes
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.
ionic bond