| 1. | One may trivially combine the expressions of capacitance and electrostatic interaction energy,
|
| 2. | Thermal motion of a nucleus can result in fluctuating electrostatic interaction energies.
|
| 3. | The interaction energy usually depends on the relative position of the objects.
|
| 4. | These moments lowers their interaction energy by pointing antiparallel to their neighbors.
|
| 5. | Merging of nucleation sites between particles is influenced by their interaction energies.
|
| 6. | Is coulombic interaction energy the same as lattice energy / enthalpy?
|
| 7. | These interaction energy values are obtained from experimental data, and are usually tabulated.
|
| 8. | As previously noted, this interaction energy is highly dependent on geometry.
|
| 9. | The parabolic potential curves symbolize the interaction energy between the chromophores and the solvent.
|
| 10. | For a given cation� ? adduct, the interaction energy decreases with increasing solvent polarity.
|
मोबाइल