The difference between the actual energy of the molecule and that of most stable resonating structure is known as Resonance Energy.
In valence bond terms pure covalent bonds are only possible between atoms of the same element, any ionic resonance forms are "symmetric" and contribute equally to the structure. In the case of ionic bonding the covalent resonance forms that contribute to the overall bond do not cancel in the same way, they may however be of a sufficiently different energy to the "pure" ionic resonance form to make only a minimal contribution to the overall bonding.
it is the energy that is released when the ionic bonds form.
Ionic
Neither. Radiation is energy, and not made of matter.
No, it cannot be. Any bond is both ionic and covalent up to certain percentages, but not to extreme.
In valence bond terms pure covalent bonds are only possible between atoms of the same element, any ionic resonance forms are "symmetric" and contribute equally to the structure. In the case of ionic bonding the covalent resonance forms that contribute to the overall bond do not cancel in the same way, they may however be of a sufficiently different energy to the "pure" ionic resonance form to make only a minimal contribution to the overall bonding.
Resonance
using it to create a different form of energy through resonance. or system's resonance frequencies, through amplitude oscillation. The system stores vibrational energy.
Diphenylmethane
resonance
ionic charge and ionic radius; the smaller the ionic radius the greater the lattice energy
it is the energy that is released when the ionic bonds form.
Resonance.
Resonance.
Ionic Charge and Ionic Radius - the smaller the radius the greater the lattice energy
Ionic Charge and Ionic Radius - the smaller the radius the greater the lattice energy
Resonance.