Electromagnetic Waves,

Light and Color

M. Rocha   

Physics 11

Electromagnetic Waves

Moving charges produce magnetic fields 

and moving magnetic fields produce electric fields

Current

Electromagnetic Waves

Oscillating charges create oscillating magnetic fields, which in turn create oscillating electric fields 

The result are oscillating electric and magnetic fields that regenerate each other while traveling on space

Electromagnetic Waves

E&M waves need not material medium to travel!

They can travel on vacuum 

E&M waves have the standard properties of waves, but they all travel at the same speed, the speed of light

\mathrm{Wavelenght} \ (\lambda) \\ \mathrm{Frequency} \ (f) \\ \mathrm{Wave \ Velocity} \ (c) \\
c = 3\times10^8 \ m/s \\ (\mathrm{The \ speed \ of \ light})
c = f \cdot \lambda \\ f = \frac{c}{\lambda} \ , \ \ \lambda = \frac{c}{f}

Electromagnetic Spectrum

Wavelength (m)

Light :

 E&M waves in the visible range of the spectrum

Normal: Line perpendicular to interface

Checkpoint 

What color of light has the highest frequency?

Violet

Checkpoint 

What color of light has the shortest wavelength?

Violet

Refraction and Dispersion of Light

Wave Refraction

The bending of waves due to change of speed

Refraction of Light

Light rays refract (bend) when they pass from one medium to another at an oblique (not straigth) angle

Refraction is the result of waves changing speed as they cross from one medium to anoter

Direction of Refraction

Waves bend towards the normal when going from fast to slow

 and

away from the normal when going from slow to fast

Checkpoint 3

If you want to spear a fish from above the water, do you have to aim higher or lower?

Image

Actual

Lower

Dispersion happens because the refraction of light is frequency dependent

This is because higher frequencies travel slower inside the prism

Slowest

Fastest

Dispersion of Light

Vision and Color

Primary and Complementary Colors

Primary Colors:

Complementary Colors:

Red

Green

Blue

White - Red = Cyan

White - Green = Magenta

White - Blue = Yellow

Y

C

M

Selective Reflection

Most materials absorb light of some frequencies and reflect the rest

A red ball for example absorbs light of most visible frequencies and reflects red

Red ball seen under white light

Red ball seen under red light

Red ball seen under green light

Selective Transmission

Blue glass transmits only energy of the frequency of blue light. Energy of the other frequencies is absorbed and warms the glass

The radiation curve of sunlight is a graph of brightness versus frequency. Sunlight is brightest in the yellow-green region.

Sunlight

Why are sunsets are red?

As light from the sun travels through the atmosphere more and more blue/green light is scattered away 

Why is the sky blue?

The molecules of our atmosphere scatter high frequency light (blue) more than low frequency light (red) 

Checkpoint 4

Why are clouds white?

Because water droplets scatter light of all frequencies the same

Color of Water?

Water molecules scatter infrared and to some extent red light

White - Red = Cyan

The End

Transparent vs. Opaque Materials

How a materials responds to light depends on the frequency of light and the natural frequency of electrons in the material

Glass is transparent to all the frequencies of visible light

Some opaque materials absorb certain frequencies while others reflect certain frequencies

Transparent  Materials

In transparent materials, the frequency of the reemitted light is identical to that of the light that produced the vibration to begin with

A light wave incident upon a pane of glass sets up vibrations in the atoms.

Because of the time delay between absorptions and reemissions, the average speed of light in glass is less than c

Opaque  Materials

 In opaque materials, any vibrations from light are either absorbed and turned into internal energy or reflected

In metals, the outer electrons of atoms are not bound to any particular atom. When light shines on metal and sets these free electrons into vibration, their energy is reemitted as light

Electromagnetic Waves, Light and Color

By Miguel Rocha

Electromagnetic Waves, Light and Color

Physics 11

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