Physical Chemistry , 1st ed.

the same as in vacuum. This assumption is not valid for condensed phases like

water, glass, or any other transparent medium.

The quantum theory of light, discussed in Chapter 9, provides a relation-

ship between the energy of light and its frequency. Recall that light of a par-

ticular frequency comes in bundles of energy (which we call photons) having

a certain, specific amount given by the formula

Eh (14.5)

Equations 14.4 and 14.5 allow us to convert between energy, wavelength, and

frequency of light.

It is typical to divide the possible values of wavelength/frequency/energy of

light into various regions. Table 14.1 lists the approximate frequencies, wave-

lengths, and energies of the regions, and Figure 14.2 shows a diagram of a con-

tinuous spectrum and how it is divided. Such divisions have historical as well

as practical reasons. For example, one obvious division is visible light,which is

light that we can see. Visible light is electromagnetic radiation having wave-

lengths from about 7700 Å to 4000 Å (or 7.700 

10 ^7 m to 4.000 

10 ^7 m).

At higher frequencies (and therefore energies) than visible light is ultraviolet

(“higher than violet,” abbreviated UV) radiation, X rays, and gamma radiation.

464 CHAPTER 14 Rotational and Vibrational Spectroscopy

Table 14.1 The electromagnetic spectruma

Frequency range Wavelength range Energy range

Region (in s^1 ) (variable units) (kJ/mol of photons)

Gamma rays  3 

1017 1 nm 120,000

X rays 3 

1017 –3 

1016 ~1–10 nm 12,000,000–12,000

Ultraviolet (UV)b 7.5 

1016 –7.5 

1014 4–400 nm 30,000–300

Visible light 7.5 

1014 –3.9 

1014 400–770 nm 300–155

Infrared (IR)c 3.9 

1014 –3 

1011 770 nm–1000 m 155–0.12

Microwaves 3 

1011 –3 

108 1 mm–1000 mm 0.12–0.00012

Radio waves  3 

108 1000 mm 0.00012

aBecause the limits on the ranges are inexact, some of the boundaries may overlap.

bOccasionally separated into UVA (320–400 nm) and UVB (280–320 nm) regions.

cOccasionally separated into near IR (770–2500 nm), middle or mid-IR (2500–50,000 nm), and far IR

(50,000 nm–1000 m) regions.

  1  100
(Region limits are approximate)

Microwaves Infrared Ultraviolet

Visible

Radiowaves X rays Gammarays

10 ^9 m

  3  108

  770 nm 400 nm

1017 s^1

10 ^8

1016

10 ^7

1015

10 ^6

1014

10 ^5

1013

10 ^4

1012

10 ^3

1011

10 ^2

1010

10 ^1

109

RedOrangeYellowGreenBlueViolet

Figure 14.2 The electromagnetic spectrum. The top numbers are the approximate frequency

boundaries of the regions, and the approximate wavelength boundaries are listed on the bottom.

The visible portion of the spectrum, shown expanded, is actually a small part of the complete

electromagnetic spectrum.