CHAP. 12: BASIC TERMS OF CHEMICAL PHYSICS [CONTENTS] 428
12.3 Interaction of molecules with electromagnetic
radiation
In section12.1.9we dealt with the interaction of substances with radiation (light), and ra-
diation was interpreted as a variable electromagnetic field. Radiation, however, can be also
explained as a flow of immaterial particles—photons. Given this dual character of electromag-
netic radiation, quantities of two kinds, waves and particles, are used for its description.
12.3.1 Wave characteristics of radiation
The basic characteristic of every wave motion is its frequency,ν, defined by the number of
oscillations per unit time. Another quantity is thewavelength,λ, the distance covered by the
wave during one oscillation. The wavelength depends on the speed of radiation. In vacuum it
holds
λ=
c
ν
, (12.42)
wherecis the light velocity in vacuum (c= 3× 108 m s−^1 ).
There is yet another quantity used for describing spectra, the wavenumber, ̃ν, which
represents the number of waves per unit length
ν ̃=
1
λ
=
ν
c
. (12.43)
U Main units:radiation frequency: s−^1 =Hz (one oscillation per second), wavelength: m, wavenum-
ber: m−^1.
Example
The red light frequency is approximately 4. 3 × 1014 Hz. Calculate its wavelength and wavenumber.
Solution
λ=
c
ν
=
3 × 108 m s−^1
4. 3 × 1014 s−^1
= 7× 10 −^7 m= 700nm,
̃ν=
1
λ
=
1
7 × 10 −^7 m
= 1. 43 × 106 m−^1.