which statement explains how the bands in the crystal of a metal are like atomic orbitals?\no they both have…

which statement explains how the bands in the crystal of a metal are like atomic orbitals?\no they both have localized electrons that orbit specific atoms.\no they both involve ionization of some atoms so bonding can occur.\no they both have localized electrons that move from atom to atom.\no they both allow electrons to move from lower energy levels to higher energy levels.

which statement explains how the bands in the crystal of a metal are like atomic orbitals?\no they both have localized electrons that orbit specific atoms.\no they both involve ionization of some atoms so bonding can occur.\no they both have localized electrons that move from atom to atom.\no they both allow electrons to move from lower energy levels to higher energy levels.

Answer

Brief Explanations:

Atomic orbitals are regions where electrons can be found and electrons can transition between energy levels in them. In a metal crystal, bands are formed by overlapping atomic orbitals and electrons can move between energy - levels within these bands. Electrons in metal crystals are delocalized (not localized as in first and third options), and ionization for bonding is not the key similarity here. The ability of electrons to move from lower to higher energy levels is a common feature.

Answer:

They both allow electrons to move from lower energy levels to higher energy levels.