Final answer:Hydrogen bonds are the main type of attractive forces between molecules of ammonia (NH3). They occur due to the bond between the nitrogen andhydrogen atomsin ammonia. These bonds are considered to beintermolecular attractiveforces, which are stronger than most dipole-dipole attractions and London dispersion forces.Explanation:The primary type of attractive forces between molecules of ammonia (NH3) arehydrogen bonds. This is a result of the bond between the hydrogen and nitrogen atoms in the ammonia molecule. Nitrogen is one of the three most electronegative elements along with oxygen and fluorine, which allow it to form intermolecular hydrogen bonds. These hydrogen bonds are a special type ofdipole-dipole attraction.Hydrogen bonds are much weaker than covalent bonds, but they are generally much stronger than other dipole-dipole attractions andLondon dispersion forces. Despite being referred to as a 'bond', keep in mind that hydrogen bonds areintermolecular attractive forcesrather than intramolecular forces, like covalent or ionic bonds.It's also important to note thatall atoms and molecules willcondenseinto a liquid or solidwhere the attractive forces, like hydrogen bonds in the case of ammonia, exceed the kinetic energy of the molecules at sufficiently low temperatures.Learn more about Hydrogen bonds here:brainly.com/question/30885458#SPJ12...

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