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L 32 Light and Optics [2] Measurements of the speed of light 

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Presentation on theme: "L 32 Light and Optics [2] Measurements of the speed of light "— Presentation transcript:

1 L 32 Light and Optics [2] Measurements of the speed of light 
The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric scattering Blue sky and red sunsets Mirrors and lenses n

2 The index of refraction (n) depends of the color (wavelength) of the light
Wavelength (nm) n Red 660 1.520 orange 610 1.522 yellow 580 1.523 green 550 1.526 blue 470 1.531 violet 410 1.538 1 nm = m

3 Different colors are refracted (bent) by different amounts
White light red contains all wavelengths (colors) violet Glass prism

4 The rainbow Rainbows are caused by dispersion of sunlight from water droplets which act as tiny prisms

5 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.

6 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

7 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

8 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

9 Mirrors  reflection Light does not pass thru metals – it is reflected at the surface Two types of reflection: diffuse and specular specular reflection: Sharp image Diffuse reflection: Fuzzy or no image

10 The law of reflection The angle of reflection = angle of incidence
Incident ray, reflected ray and normal all lie in the same plane Incident ray reflected mirror normal i r

11 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.

12 You only need a mirror half as tall as you are to see your whole self
Homer’s image Homer

13 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

14 Spherical or curved mirrors
Concave mirror Focus parallel light rays are focused to one point

15 convex mirror focus parallel rays diverge from a focus behind
the mirror

16 Dish antennas signal from satellite detector at the focal
point of the dish

17 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

18 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.

19 Image formation with lenses
converging lens (positive lens) diverging lens (negative lens) the human eye correcting for nearsightedness correcting for farsightedness optical instruments lenses are relatively simple optical devices the principle behind the operation of a lens is refraction the bending of light as it passes from air into glass (or plastic)

20 converging lens a converging lens focuses parallel rays to
focal point F a converging lens focuses parallel rays to a point called the focal point.  a thicker lens has a shorter focal length

21 Diverging lens A diverging lens causes parallel rays to diverge
F A diverging lens causes parallel rays to diverge as if they came from a focal point F

22 Image formation by a converging lens
object If the object is located at a distance ofat least 2F from the lens, the image is inverted and smaller than the object. The image is called a REAL image since light rays actually converge at the image location

23 A converging lens is used to focus rays from the sun to a point
since the sun is very far from the lens, the rays are nearly parallel

24 converging lens is used in a camera to focus light onto the film
when you focus a camera, you adjust the distance between the lens and the film depending on the object location.

25 Image formation by a diverging lens
Object image The diverging lens produces an image that is upright and diminished in size. It is a VIRTUAL image, since light rays do not actually pass through the image point

26 a magnifying lens Object virtual image
By placing the lens close to the object we get a magnified virtual image.

27 Sight – the human eye Physics of the human eye
Corrections for abnormal vision Nearsightedness Farsightedness

28 The Eye light enters through the cornea
the iris controls the amount of light that gets in, a muscle can close it or open it, the iris is the colored part the lens is filled with a jelly-like substance; the ciliary muscle can change the shape of the lens and thus change its focal length by changing the focal length, (accommodation) the lens is able to focus light onto the retina for objects located at various distances

29 the physics of the human eye
The relaxed eye can easily focus on distant objects. To focus on close objects the lens is squeezed to shorten it’s focal length, making it possible to converge the rays onto the retina. The near point is the distance at which the closest object can be seen clearly. It recedes with age.

30 When a nearsighted person views a distant object, the lens
cannot relax enough to focus at the retina. The rays converge too quickly. The remedy is to place a diverging lens in front of the eye to first diverge the

31 When a farsighted person tries to focus on a close object
the lens cannot be squeezed enough to focus on the retina. The focus point is behind the retina. The remedy is to place a converging lens in front of the eye to converge the rays before they enter the eye. Weh

32 Pencil in lucite block the top half of the pencil is glued exactly at the position where the image of the bottom half is formed in the block due to refraction at the front surface the bottom of the pencil (its image ) appears closer to the front surface of the block the bottom half of the pencil cannot be seen from the sides of the block because any ray from the bottom of the pencil suffers total internal reflection on the sides of the block. top view


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