Intermolecular Forces - Introduction (Edexcel International A Level (IAL) Chemistry): Revision Note
Exam code: YCH11
Intermolecular Forces - Introduction
Intramolecular forces
Intramolecular forces are forces within a molecule and are usually covalent bonds
Covalent bonds are formed when the outer electrons of two atoms are shared
Single, double, triple and co-ordinate bonds are all types of intramolecular forces
Intermolecular forces
Molecules also contain weaker intermolecular forces which are forces between the molecules
There are three types of intermolecular forces:
Induced dipole – dipole forces also called van der Waals or London dispersion forces
Permanent dipole – dipole forces are the attractive forces between two neighbouring molecules with a permanent dipole
Hydrogen Bonding are a special type of permanent dipole - permanent dipole forces
Intramolecular forces are stronger than intermolecular forces
For example, a hydrogen bond is about one tenth the strength of a covalent bond
The strengths of the types of bond or force are as follows:
The varying strengths of different types of bonds
Induced dipole-dipole forces:
Induced dipole - dipole forces exist between all atoms or molecules
They are also known as London dispersion forces
The electron charge cloud in non-polar molecules or atoms are constantly moving
During this movement, the electron charge cloud can be more on one side of the atom or molecule than the other
This causes a temporary dipole to arise
This temporary dipole can induce a dipole on neighbouring molecules
When this happens, the δ+ end of the dipole in one molecule and the δ- end of the dipole in a neighbouring molecule are attracted towards each other
Because the electron clouds are moving constantly, the dipoles are only temporary
Relative strength
For small molecules with the same number of electrons, permanent dipoles are stronger than induced dipoles
Butane and propanone have the same number of electrons
Butane is a nonpolar molecule and will have induced dipole forces
Propanone is a polar molecule and will have permanent dipole forces
Therefore, more energy is required to break the intermolecular forces between propanone molecules than between butane molecules
So, propanone has a higher boiling point than butane
Pd-pd forces are stronger than id-id forces in smaller molecules with an equal number of electrons
Permanent dipole - dipole forces:
Polar molecules have permanent dipoles
The molecule will always have a negatively and positively charged end
Forces between two molecules that have permanent dipoles are called permanent dipole - dipole forces
The δ+ end of the dipole in one molecule and the δ- end of the dipole in a neighbouring molecule are attracted towards each other
Hydrogen bonding
Hydrogen bonding is the strongest form of intermolecular bonding
Intermolecular bonds are bonds between molecules
Hydrogen bonding is a type of permanent dipole – permanent dipole bonding
For hydrogen bonding to take place the following is needed:
A species which has an O, N or F (very electronegative) atom bonded to a hydrogen
When hydrogen is covalently bonded to an O, N or F, the bond becomes highly polarised
The H becomes so δ+ charged that it can form a bond with the lone pair of an O, N or F atom in another molecule
For example, in water
Water can form two hydrogen bonds, because the O has two lone pairs
Hydrogen bonding in water
Examiner Tips and Tricks
Make sure to use a dashed, straight line when drawing your intermolecular forces! Hydrogen bonds should start at the lone pair and go right up to the delta positive atom - it must be really clear where your H bond starts and ends.
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