Principles of light, Fiber material, Wavelength – Elenco Fiber Optics Voice and Data Kit User Manual

Page 9: Figure 2a, Plastic optical cable core cladding jacket

PRINCIPLES OF LIGHT

WAVELENGTH

SECTION B

Plastic Optical Cable

Core

Cladding

Jacket

-8-

FIBER MATERIAL

There are many materials that can be used to transmit light. The two most
popular optical fibers are glass, which has the best optical characteristics,
and plastic. Plastic is less expensive and does not break easily. This kit
uses a plastic optical cable similar to the one shown.

Light occupies only a small portion of the
electromagnetic spectrum shown in Figure 2A. The
equation

λ = c/f is used to convert frequency to

wavelength, where

λ = wavelength, c = speed of

light, and F = Frequency of the light wave.

Note that in Figure 2A, the visible range of light is
approximately 380 x 10

-9

meters (violet) to 750 x

-9

meters (red). When using plastic as the fiber

optic cable medium, the best results occur around
660 x 10

-9

(orange-red).

Light also can be thought of as little bundles of
energy being rapidly transmitted. These discrete
groups of energy are called photons, and the
amount of energy present in each photon is
dependent on the frequency at which they are
transmitted. Higher frequencies produce more
energy than lower frequencies of light. The equation
for the amount of energy in each photon is E = h

ƒ.

Where E = energy in joules, h is Planck’s constant
(6.63 x 10

-34

joules-seconds), and

ƒ is the frequency

in hertz.

It is important to remember that light can be
explained on a wave or a photon energy packet
when investigating the properties of fiber optics.

Sonic

Sound

AM Radio

Shortwave Radio

Television & FM Radio

Radar

Infrared Light

Ultraviolet Ray

X-Ray

Gamma Ray

Cosmic Ray

Frequency

(Hz)

Visible Light

Wavelength

(nm)

Ultraviolet

Violet

Blue

Green

Orange

Red

Infrared

400

455

490

550

620

750

800

Figure 2A