When a polar and a non-polar molecule come close the attraction taking place between them due to partial charges isknown as dipole induced dipole interaction.
the interaction between the hydrogen of one molecule and the partial negative atom of other molecule is called dipole dipole interaction
yes. with 2 lone pairs, OF2 is a dipole interaction
yes
hydrogen bonding is about five times as strong as dipole interaction
because dipole moment depends upon charge i.e. electronegativity as per the formula of dipole moment
the interaction between the hydrogen of one molecule and the partial negative atom of other molecule is called dipole dipole interaction
yes. with 2 lone pairs, OF2 is a dipole interaction
yes
The interactions between HCl molecules is a dipole-dipole interaction.
hydrogen bonding is about five times as strong as dipole interaction
because dipole moment depends upon charge i.e. electronegativity as per the formula of dipole moment
dipole-dipole interaction.
Dipole-dipole interaction and Vander waal's forces.
F2 has no dipole moment. (Hint: if it's just one element, there is no dipole moment)
van der Vaals forces of attraction and dipole-dipole interaction
Polar molecules have a dipole moment and they have intermolecular forces that include dipole-dipole interaction. A hydrogen bond is the attraction between a hydrogen bonded to N, O, F atom with N, O, F lone pair. Small molecules that exhibit this effect are HF, H2O and NH3. The example molecules are all polar. The hydrogen bond interaction is stronger than a normal dipole-dipole interaction.
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.