PH3 has a dipole moment , of 0.58 D. Therefore there will be dipole dipole interactions. All molecules experience London dispersion forces as these are caused by the interaction of instantaneous dipoles due to the movement of electrons within the molecules.
PH3 is a polar compound.There are dipole dipole bonds.
The hybridization of PH3 is sp3
PH3 is an acid.It is a flammable substance.
pH3. It is more acidic
PH3 has a higher vapor pressure than NH3 because the PH3 has weaker attractive forces. Therefore, PH3 also boils lower than NH3.
PH3 is a polar compound.There are dipole dipole bonds.
The hybridization of PH3 is sp3
PH3 is an acid.It is a flammable substance.
pH3. It is more acidic
PH3 has a higher vapor pressure than NH3 because the PH3 has weaker attractive forces. Therefore, PH3 also boils lower than NH3.
Neither PH3 nor NH3 are acids. They are both bases. NH3 is the stronger base
This is ammonia, NH3.
NH3 exhibits hydrogen bonding in addition to dispersion forces. This significantly increases the intermolecular force, and raises the boiling point. PH3 does not exhibit hydrogen bonding and the dominant intermolecular force holding these molecules together is dispersion forces. (Dispersion forces also known as Van Der Waal Force)
Yes
A PH3 molecule contains 4 atoms: 1 phosphorus and 3 hydrogen.
It is technically PH3, and it is called Phosphine
the three types of dispersion are: 1. Intermodal Dispersion 2. Chromatic Dispersion 3. Waveguide Dispersion