Fluorine is the most electronegative element. It will always be more negative than what it is paired with. +p--F-
non-polar covalent
The bond order of N2 is 3, and the bond order of O2 is 2.
The bond order of CO is 3.
Yes. Phosphorus in its elemental form can com in the form of P4 molecules (white phosphorous) or as a covalent network (red and black phosphorus)
The bond order of water is .5.
non-polar covalent
To calculate the bond order from a Lewis structure, count the total number of bonds between atoms and divide by the total number of bond groups. Bond order indicates the strength of a bond and the stability of a molecule.
The bond order of N2 is 3, and the bond order of O2 is 2.
To determine the average bond order in a molecule, you can calculate it by dividing the total number of bonds by the total number of bond sites in the molecule. Bond order represents the strength and length of a bond between two atoms in a molecule.
In N2, there is a stron triple bond between the two nitrogens which require large amount of energy to break. Hence it is less reactive. In P4, there is single bonds between the different phosphorus atoms and it easy to break and hence P4 is more reactive.
The bond order for a diatomic molecule like Br-Br is calculated by subtracting the number of electrons in antibonding molecular orbitals from the number of electrons in bonding molecular orbitals, and then dividing the result by 2. For Br2, Br has 7 valence electrons, so it forms a single bond with a bond order of 1.
To calculate the yield of a bond, you need to divide the annual interest payment by the current market price of the bond. This will give you the yield as a percentage.
In an expression p4 is called a term.
The bond order of NO is 2.5
Assuming that you are combining the P4 with Cl2 and there is a suffiecient quantity of Cl2 for the P4 to completely react, you will first need a balanced equation which is P4 + 10Cl2 -> 4PCl5. From there, it's mostly stoichiometry. Take the 24g of P4, divide by the molar mass (123.88g/mol) to get the number of moles of P4 that you have (0.194). You then have to convert, using the balanced equation, from moles of P4 to moles of PCl5, in this case multiplying by 4. That will give you the number of moles of PCl5. The stoichiometry should look something like this 24.0 g P4 x (1 mol P4/123.88g P4) x (4 mol PCl5/1 mol P4).
The bond order of NO is 2.5
To calculate the current yield on a bond, divide the annual interest payment by the current market price of the bond, then multiply by 100 to get the percentage.