Want this question answered?
nh3-nh3 because they are both polar molecules
CHF3 is a polar molecule. The fluorine atoms are electronegative and draw electrons towards their end of the molecule, leaving the hydrogen with a slight positive charge on it. So dipole-dipole forces will act between the molecules. The molecules will also exert dispersion forces on each other, but these are much weaker than the dipole-dipole forces.
the strongest intermolecular force is Hydrogen, but between H and Cl, I think it is Permanent dipole.
Gravitational force exists between masses. Gravitational force is only of attractive. No repulsive gravitational force has been found so far. But in electrostatics and magnetism, the force between electric charges and magnetic poles respectively are of both repulsive and attractive. Nuclear force between the nucleons within the nucleus of the atom is also attractive in nature.
The strongest attractive force is that created by the random movement of electron clouds - they are referred to by several names i) van der waals, ii) London (dispersion) forces, iii) instantaneous induced dipoles.
I would think the acid is the strongest force
salt
CH4 ia not polar.So the intra molecular force is london force
nh3-nh3 because they are both polar molecules
attractive force present between ammonia ions repulsive force also exist but not at high rate
The electrostatic force is attractive between unlike charges, and repulsive between like charges.
Not particlarly it is weaker than the electrostaic attraction between ions but is the strongest of the intermolecular forces.
The strongest force, in terms of force, is the strong interaction. The strongest force, in terms of distance, is gravity.
The electromagnetic force has a longer range of effect than any other force except gravity. It is also the second strongest force. Unlike gravity, it can be both attractive and repulsive.
No, the color (strong nuclear) force is the strongest force.
Gravity is strictly an attractive force.
Gravitational force is the strongest when you are the closest to a mass.