No, Br2 is actually a London dispersion. The reason that Br2 is a dispersion is because dispersion forces are weak forces that result from temporary shifts in the density of electrons in the electron clouds.
London Disperson Forces (or Induced Dipole - Induced Dipole)
NH3 is not symmetrical.So it has a dipole moment
NH3 is an asymmetrical compound.So it is exhibits.
dipole and induced dipole
no dipole moment
Ion-dipole, Dipole-dipole, and Dipole-induced dipole.
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.
I don't think it is. Microwave energy levels correspond to rotational modes, and for rotational spectroscopy, a molecule has to have a dipole moment... homonuclear diatomics like Br2 don't, and thus do not exhibit a pure rotational spectrum.
London Disperson Forces (or Induced Dipole - Induced Dipole)
There are three types of dipole. 1)Permanent dipole. 2)Instantenous dipole. 3)Induced dipole.
NH3 is not symmetrical.So it has a dipole moment
NH3 is an asymmetrical compound.So it is exhibits.
dipole and induced dipole
The dipole moment of Glucose is 1.8
no dipole moment
instantaneus
what is dipole moment of 1,1-Dibromoethene