Hydrogen has a positive charge.
Yes, H2O is a polar molecule so it would have dipole-dipole forces as well as hydrogen bonding and London dispersion forces.
I would imagine Hydrogen Bond. It is hydrogen bond because hydrogen fluoride and water have a large dipole. The electronegative atom attracts electrons away from the hydrogen atom leaving the hydrogen atom almost unshielded proton with a partial positive charge.
The strongest intermolecular forces that would exist between molecules of NO would be dipole-dipole attractions. There are no hydrogen bonds formed, and so dipole-dipole would be the strongest. There will also be dispersion forces, but these are weaker than dipoles.
Induced dipole forces result when an ion or a dipole induces a dipole in an atom or a molecule with no dipole. These are weak forces. An ion-induced dipole attraction is a weak attraction that results when the approach of an ion induces a dipole in an atom or in a nonpolar molecule by disturbing the arrangement of electrons in the nonpolar species. A dipole-induced dipole attraction is a weak attraction that results when a polar molecule induces a dipole in an atom or in a nonpolar molecule by disturbing the arrangement of electrons in the nonpolar species.
Covalent
Zero Dipole would set itself such that dipole moment vector is along the electric field vector
That would have to be when the dipole axis is perpendicular to the field.
So interesting query! As we keep the dipole with its dipole moment along the direction of the electric field then it will be in stable equilibrium. IF we keep the same dipole inverted ie its dipole moment opposite to the external field then the dipole will be in unstable equilibrium.
Yes, H2O is a polar molecule so it would have dipole-dipole forces as well as hydrogen bonding and London dispersion forces.
The prominent intermolecular force for this compound would be dipole dipole attraction forces since there is a polar C-F bond in each molecule. As there is many C-H bonds present, there would be London forces among those groups.
The main IM force in HCN would be dipole-dipole and secondary would be dispersion.
Yes. It also has London Dispersion Forces (also called van der Waal forces) and Hydrogen bonding between molecules. Due to its shape, trigonal pyramidal it has a slight negative charge on the N and slightly positive charge on the H thus the strongest inter-molecular forces would be hydrogen bonding between the molecules, a type of dipole-dipole interaction. As it is a small molecule the dispersion forces would be very small.
Dipole-Dipole attractions
when angle 0 b/w dipole moment vector p and electric field vector E is zero then potential energy of dipole, U=-pEcos0 =-pE and torque=pEsin0=0;which means that the electric dipole is in stable equilibrium.
I would imagine Hydrogen Bond. It is hydrogen bond because hydrogen fluoride and water have a large dipole. The electronegative atom attracts electrons away from the hydrogen atom leaving the hydrogen atom almost unshielded proton with a partial positive charge.
The strongest intermolecular forces that would exist between molecules of NO would be dipole-dipole attractions. There are no hydrogen bonds formed, and so dipole-dipole would be the strongest. There will also be dispersion forces, but these are weaker than dipoles.
The strongest intermolecular forces that would exist between molecules of NO would be dipole-dipole attractions. There are no hydrogen bonds formed, and so dipole-dipole would be the strongest. There will also be dispersion forces, but these are weaker than dipoles.