Colour and light

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Introduction

The light that human beings can see is called visible light . Visible light is actually just a small part of the large spectrum of electromagnetic radiation which you will learn more about in [link] . We can think of electromagnetic radiation and visible light as transverse waves. We know that transverse waves can be described by their amplitude, frequency (or wavelength) and velocity. The velocity of a wave is given by the product of its frequency and wavelength:

v = f \times λ

However, electromagnetic radiation, including visible light, is special because, no matter what the frequency, it all moves at a constant velocity (in vacuum) which is known as the speed of light. The speed of light has the symbol $c$ and is:

\begin{matrix} c & = & 3 \times 10^{8} m . s^{- 1} \end{matrix}

Since the speed of light is $c$ , we can then say:

c = f \times λ

Colour and light

Our eyes are sensitive to visible light over a range of wavelengths from 390 nm to 780 nm (1 nm = $1 \times 10^{- 9}$ m). The different colours of light we see are related to specific frequencies (and wavelengths ) of visible light. The wavelengths and frequencies are listed in [link] .

Colours, wavelengths and frequencies of light in the visible spectrum.

Colour	Wavelength range (nm)	Frequency range (Hz)
violet	390 - 455	769 - 659 $\times 10^{12}$
blue	455 - 492	659 - 610 $\times 10^{12}$
green	492 - 577	610 - 520 $\times 10^{12}$
yellow	577 - 597	520 - 503 $\times 10^{12}$
orange	597 - 622	503 - 482 $\times 10^{12}$
red	622 - 780	482 - 385 $\times 10^{12}$

You can see from [link] that violet light has the shortest wavelengths and highest frequencies while red light has the longest wavelengths and lowest frequencies .

A streetlight emits light with a wavelength of 520 nm.

What colour is the light? (Use [link] to determine the colour)
What is the frequency of the light?

What is being asked and what information are we given?
We need to determine the colour and frequency of light with a wavelength of $λ = 520$ nm = $520 \times 10^{- 9}$ m.
Compare the wavelength of the light to those given in [link]
We see from [link] that light with wavelengths between 492 - 577 nm is green. 520 nm falls into this range, therefore the colour of the light is green.
Next we need to calculate the frequency of the light
We know that

$\begin{matrix} c & = & f \times λ \end{matrix}$

We know $c$ and we are given that $λ = 520 \times 10^{- 9}$ m. So we can substitute in these values and solve for the frequency $f$ . ( NOTE: Don't forget to always change units into S.I. units! 1 nm = $1 \times 10^{- 9}$ m.)

$\begin{matrix} f & = & \frac{c}{λ} \\ = & \frac{3 \times 10^{8}}{520 \times 10^{- 9}} \\ = & 577 \times 10^{12} Hz \end{matrix}$

The frequency of the green light is $577 \times 10^{12}$ Hz

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A streetlight also emits light with a frequency of 490 $\times 10^{12}$ Hz.

What colour is the light? (Use [link] to determine the colour)
What is the wavelength of the light?

What is being asked and what information are we given?
We need to find the colour and wavelength of light which has a frequency of 490 $\times 10^{12}$ Hz and which is emitted by the streetlight.
Compare the wavelength of the light to those given in [link]
We can see from [link] that orange light has frequencies between 503 - 482 $\times 10^{12}$ Hz. The light from the streetlight has $f = 490 \times 10^{12}$ Hz which fits into this range. Therefore the light must be orange in colour.
Next we need to calculate the wavelength of the light
We know that

$\begin{matrix} c & = & f \times λ \end{matrix}$

We know $c = 3 \times 10^{8} m . s^{- 1}$ and we are given that $f = 490 \times 10^{12}$ Hz. So we can substitute in these values and solve for the wavelength $λ$ .

$\begin{matrix} λ & = & \frac{c}{f} \\ = & \frac{3 \times 10^{8}}{490 \times 10^{12}} \\ = & 6.122 \times 10 - 7 m \\ = & 612 \times 10^{- 9} m \\ = & 612 nm \end{matrix}$

Therefore the orange light has a wavelength of 612 nm.

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Source: OpenStax, Siyavula textbooks: grade 12 physical science. OpenStax CNX. Aug 03, 2011 Download for free at http://cnx.org/content/col11244/1.2

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