1.25(no. of bonds / no of oxygen atoms)
The bond order of PO is 1.5. This is calculated by taking the difference between the number of bonding and antibonding electrons and dividing by 2 in the molecular orbital diagram of the molecule.
Phosphate (PO43-) forms an ionic bond when it bonds with metals like calcium to create compounds like calcium phosphate found in bones and teeth. It can also be covalently bonded in organic molecules as part of a phosphate group.
AIPO4 is an ionic bond because it is composed of a positively charged aluminum ion (Al3+) and negatively charged phosphate ions (PO43-), resulting in the attraction between the oppositely charged ions.
The formula PO43- indicates that the ion is composed of one phosphorus atom bonded to four oxygen atoms with a total charge of -3. Each oxygen atom contributes two electrons to the bond, while the phosphorus atom contributes five electrons.
The bond order of NO is 2.5
The bond order of PO is 1.5. This is calculated by taking the difference between the number of bonding and antibonding electrons and dividing by 2 in the molecular orbital diagram of the molecule.
Phosphate (PO43-) forms an ionic bond when it bonds with metals like calcium to create compounds like calcium phosphate found in bones and teeth. It can also be covalently bonded in organic molecules as part of a phosphate group.
No such thing as hypophosphate do u mean hypophosphite which is PO???
AIPO4 is an ionic bond because it is composed of a positively charged aluminum ion (Al3+) and negatively charged phosphate ions (PO43-), resulting in the attraction between the oppositely charged ions.
The formula PO43- indicates that the ion is composed of one phosphorus atom bonded to four oxygen atoms with a total charge of -3. Each oxygen atom contributes two electrons to the bond, while the phosphorus atom contributes five electrons.
PO43-
The bond order of NO is 2.5
The bond order of NO is 2.5
PO stands for purchase order
Yes, because the bond is of similar atoms and since the bond length is related to the bond order and the bond order is constant for the three bonds so the bond length will be the same for the single bonded bonds and start changing when we consider the bond.
yes
The bond order is the number of shared electron pairs between two atoms in a covalent bond. A single bond has a bond order of 1 (one shared pair), a double bond has a bond order of 2 (two shared pairs), and a triple bond has a bond order of 3 (three shared pairs).