Question

The frequency of vibration of a bond is a function of which factor​

Answer 1

$\huge\boxed{\fcolorbox{black}{pink}{Answer}}$

The amount of energy required to stretch a bond depends on the strength of the bond and the masses of the bonded atoms. The stronger the bond, the greater the energy required to stretch it. The frequency of the vibration is inversely proportional to the mass of the atoms, so heavier atoms vibrate at lower frequencies.

HOPE THIS HELPS YOU AND PLEASE MARK ME AS A BRAINLEIST

Answer 2

The frequency of vibration of a bond is a function of the mass and force of the bond.

• Vibrational frequency is inversely proportional to the mass of atoms.
• As the mass of atoms increases the bond strength decreases thus vibrational frequency decreases.
• Now if the force constant of a bond increases then its bond strength increases and the bond becomes shorter and its frequency of vibration increases.