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Dive into light phenomena such as reflection, refraction, fiber optics, rainbows, and atmospheric scattering. Discover how light behaves with mirrors, prisms, and in the presence of different mediums. Explore the mysteries behind blue skies, red sunsets, and the science of rainbow formation.
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L 32 Light and Optics [2] • Measurements of the speed of light • The bending of light – refraction • Total internal reflection • Dispersion • Dispersion • Rainbows • Atmospheric scattering • Blue sky and red sunsets • Mirrors n
VISIBLELIGHT Color WAVELENGTH OR FREQUENCY Wavelength Frequency = c (speed of light) = 3 x 108 m/s
Refraction the bending of light • One consequence of the fact that light travels more slowly in say water compared to air is that a light ray must bend when it enters water this is called refraction • the amount of refraction (bending) that occurs depends on how large the index of refraction (n) is, the bigger n is, the more bending that takes place when light enters a medium
Reflection and refraction at a surface Normal line Incident Light ray reflected Light ray refracted Light ray
Refraction of light Incident ray refracted ray Water n= 1.33 Glass (n=1.5) The refracted ray is bent more in the glass
Total internal reflection n2 n1 > n2 c When the incident angle is too big, the refracted ray disappears and the incident ray is totally reflected back. For glass, n = 1.5, the critical angle, c = 42 °
Fiber optics A fiber optic cable is a bunch (thousandths) of very fine (less than the diameter of a hair) glass strands clad together. The light is guided through the cable by successive internal reflections.
fiber optic communications • can carry more info with less distortion over long distances • not affected by atmospheric conditions or lightning and does not corrode • copper can carry 32 telephone calls, fiber optics can carry 32,000 calls • takes 300 lbs of copper to carry same info as 1 lb of fiber optics • downside expensive
Seeing through the window A light ray is offset slightly When it passes thru a pane Of glass. The thinner the Glass, the smaller the offset.
Seeing thru a window When the angle of incidence Is small, most of the incident Light passes thru the glass, Only a small amount is reflected reflected transmitted incident
reflected Windows behaving as mirrors When the angle Of incidence is Large (grazing Incidence) more Light is reflected, The window is Like a mirror transmitted incident
The index of refraction (n) dependsof the color (wavelength) of the light 1 nanometer (nm) = 1 10–9 m
Different colors are refracted (bent) by different amounts White light red contains all wavelengths (colors) violet Glass prism
The rainbow • Rainbows are caused by dispersion of sunlight from water droplets which act as tiny prisms
Why is it a rain BOW ? The drops must be At just the right Angle (42 degrees) Between your eyes And the sun to see The rainbow. This Angle is maintained Along the arc of a Circle.
Atmospheric scattering • Why is the sky blue and sunsets red? • It is due to the way that sunlight is scattered by the atmosphere (N2 and O2) • Scattering atoms absorb light energy and re-emit it but not at the same wavelength • Sunlight contains a full range of wavelengths in the visible region
Atmospheric scattering: blue sky • Short wavelengths are scattered more than long wavelengths • Blue light (short) is scattered 10 times more than red light • The light that we see in the sky when not looking directly at the sun is scattered blue light
Atmospheric scattering: red sunset • At sunset, the sun is low on the horizon • When looking at the sun it appears red because much of the blue light is scattered out leaving only the red
Why are clouds white? • Clouds consist of water droplets and very tiny ice particles • The water and ice scatter the sunlight • Scattering by water and ice (particles) is very different from scattering by molecules • The atoms are smaller than the wavelength of light, but the ice and water particles are larger • Scattering by particles does not favor any particular wavelength so the white light from the sun is scattered equally clouds are white!
Light does not pass thru metals – it is reflected at the surface Two types of reflection: diffuse and specular Mirrors reflection specular reflection: Sharp image Diffuse reflection: Fuzzy or no image
normal reflected ray Incident ray i mirror r The law of reflection • The angle of reflection = angle of incidence • Incident ray, reflected ray and normal all lie in the same plane
image formation by plane mirrors The rays appear to originate from the image behind the mirror. Of course, there is no light behind the mirror this is called a virtual image Mirrors appear to make rooms look larger.
You only need a mirror half as tall as you are to see your whole self Homer’s image Homer
The image of your right hand is your left hand AMBULANCE is painted backward so that you see it correctly in your real-view mirror
Spherical or curved mirrors Concave mirror Focus parallel light rays are focused to one point
F f f Where is the light bulb? image of light bulb light bulb A concave mirror will form a real image of an object placed at twice its focal length at a distance of twice the focal length. It will be inverted and the same size as the object.
convex mirror focus parallel rays diverge from a focus behind the mirror
Dish antennas signal from satellite detector at the focal point of the dish
Magnifying mirrors Homer’s image Homer when something placed within the focus of a concave mirror, an enlarged, upright image is formed. this principle is used in a shaving or makeup mirror
A concave mirror can provide a magnified image as used in this cosmetic mirror.
Convex mirrors: wide angle view Object Image A convex lens provides a wide angle view. Since it sees more, the images are reduced in size. Passenger side mirrors are often of this type with the warning: “objects appear further than they actually are". Because they appear smaller they look further away.