Every molecule has a london force (Induce dipole induce dipole force). In this molecule, the intermolecular force that hold these bonds together is dipole-diple interaction or dipolar interaction. There is no hydrogen bonding in here. If there is hydrogen bonding, H-atom must make bond with N,O,F. Therefore, intermolecular forces of NF3 is london force and dipole-diploe
dipole-dipole i believe! the only molecules that have hydrogen bonding are the ones with either OH, HF, and NH. and i believe the only London forces are non polar! I hope i'm not wrong here, but good luck anyways!
NF3 is a polar molecule, but it lacks the hydrogen bonding that water has, so its chief intermolecular force is dipole-dipole interaction. (there is also some dispersion force associated with NF3 as well, but it is quite small by comparison.)
N2 is a linear molecule represented by two nitrogen atoms held together by a triple bond. Since this bond is non-polar, the only force present is the London Dispersion force.
dipole-dipole and dispersion forces.
dipole-dipole
Dispersion and dipole-dipole forces.
van de walls, by shabbir makai
i think it is poo
yes intermolecular force are present but they are too weak because they depend on the distance b/w molecule and their is a alot of distance between molecule in gaseous state,so they are weak
Intermolecular Hydrogen bonding because hydrogen ion is less electronegativeand Oxygen ion is more electronegative.Dr.Chandramauly Sharma(drcrsharma@in.com)
No. An issoluble matter may remain in any state viz. solid, liquid or gaseous. The solubility is depended upon the intermolecular forces of attraction between the two substances in contact.
van de walls, by shabbir makai
i think it is poo
Solid state matter has maximum intermolecular force.
The main intermolecular force holding water molecules together in hydrogen bonding. Also, there are diplole-dipole interactions and London dispersion forces. But hydrogen bonds are the major force keeping water in the liquid state.
Yes... When water is heated, the intermolecular force of attraction between water atoms become weak and they start losing the intermolecular force of attraction... at temperature known as boiling point of water this intermolecular force become so weak that water lose its state and converts into gasious state... but this expansion is not considerable... :)
by applying pressure the particles of matter come and the intermolecular space between them shorten and they change their state from gas to liquid and the intermolecular space between the particles of liquid is more than that of gas.
The liquid state is caused by intermolecular forces.
Freezes the fastest can be of 2 mean. For liquid to reach the freezing point first, the liquid with higher molecular mass or stronger intermolecular force would have higher freezing point and can be considered freezing faster. But it might took quite a while to freeze at the freezing point. For liquid to become solid with the least energy transfer required. The liquid with the lowest intermolecular force would change the state faster at freezing point. But the freezing point might be extremely low.
yes intermolecular force are present but they are too weak because they depend on the distance b/w molecule and their is a alot of distance between molecule in gaseous state,so they are weak
Matter is the one which occupies the space. Especially atoms, molecues or ions are bound by the interacting forces between them. The strength of this force decides wether it will be in the phase of solid or liquid or gaseous. Greatest force is the cause for the solidification. Where as the same will be weakest in gas of gaseous formation.
In the liquid state, particles move freely,the particles are not closely packed they can slip and slide on each other and have greater space between them as, compared to solids.ORThe intermolecular space is more in liquids than in solids and so, it can difusse faster.That is why rate of difussion in liquids is higher than that of solids.
Intermolecular Hydrogen bonding because hydrogen ion is less electronegativeand Oxygen ion is more electronegative.Dr.Chandramauly Sharma(drcrsharma@in.com)