Yes, H2O is a polar molecule so it would have dipole-dipole forces as well as hydrogen bonding and London dispersion forces.
It is a symmetrical tetrahedral molecule so has zero dipole moment.
dipole moment of water is 1.85 Debye
The dipole moment tells us that there is net dipole on the molecule which indicates that any dipoles due to polarity of the covalent bonds do not cancel each other out. For example H2O has a dipole moment which rules out a linear structure where the bond dipoles would cancel each other out.
The bond dipole moment measure the polarity of a chemical bond.
fluorine is symmetrical so has no dipole
This is not a naturally occuring compound. If it exists, it would not have a dipole moment as it would be a linear molecule.
Zero Dipole would set itself such that dipole moment vector is along the electric field vector
NH3 is not symmetrical.So it has a dipole moment
NH3 is an asymmetrical compound.So it is exhibits.
The dipole moment of Glucose is 1.8
no dipole moment
what is dipole moment of 1,1-Dibromoethene
Water (H20) is a polar covalent molecule with two highly electronegative oxygen atoms. The electronegative oxygen atoms create a dipole moment, and are also cause H20s bent shape.
N2O has a dipole moment of 0.166 D
KrF2 is a linear molecule and therefore there is no dipole moment.
The neutral SF6 molecule has no dipole moment. The gas phase SF6- ion is not that well understood- on the basis that the shape is distorted octahedral a small dipole would be expected.
because dipole moment depends upon charge i.e. electronegativity as per the formula of dipole moment