2. L 31 Light and Optics [1] Measurements of the speed of light: 186,000 miles per second (1 foot per nanosecond) light propagating through matter – transparent vs. opaque materials colors, why is an orange orange? The bending of light – refraction dispersion - what makes the pretty colors? total internal reflection- why do diamonds sparkle? how are rainbows formed Atmospheric scattering blue sky red sunsets

3. Measurement of the speed of light Speed of light in vacuum = c = 300,000,000 m/s = 186,000 miles/s the moon is 239,000 miles from the earth, so it takes 239,000 mi/186,000 mi/s =1.3 s for light from the moon to get to the earth –8 minutes from the Sun to Earth –24 minutes across the solar system Galileo was the first to consider whether the speed of light was finite or infinite He attempted to measure it by stationing himself on one mountain and an assistant on a nearby mountain

4. Galileo and the speed of light Galileo turns on his flashlight and starts his clock When his assistant sees Galileo’s light, he turns on his flashlight When Galileo sees the light from his assistant’s flashlight, he notes the time D Galileo Galileo’s Assistant Massimo

5. Galileo’s result “If not instantaneous, it is extraordinarily rapid; at least 10 times faster than sound.” Suppose D = 2 miles, then the time delay would be t = D/c = 5 millionths of a sec. It is not surprising that Galileo was not able to measure this! Modern measurement of the speed of light using fiber optics  we can do this!

6. The speed of light inside matter The speed of light c = 300,000,000 m/s in vacuum In any other medium such as water or glass, light travels at a lower speed. The speed of light in a medium can be found by using v = c/n, where c is the speed in vacuum (300,000,000 m/s) and n is a number (greater than 1) called the index of refraction.

7. MEDIUM INDEX OF REFRACTION (n) SPEED OF LIGHT (m/s) (v) Vacuum air Exactly 1 1.000293 300,000,000 water1.33225,564,000 glass1.52197,368,000 diamond2.42123,967,000 v(speed in medium ) = c(speed in vacuum) / n

8. light propagating inside matter, e.g., glass when light is transmitted through matter, some of the electrons in the matter are forced into vibrations when the electrons vibrate they reemit the light waves  this happens in transparent materials this is a resonance effect, like the effect of one tuning fork making a nearby tuning fork vibrate in some materials the energy that the electrons receive from the light wave is passed on to a neighboring atom, thus giving up the energy as heat  this is what happens in opaque materials the delay between receiving the light energy and reemitting the light energy is way causes light to travel more slowly in a material compared to in vacuum

9. glass blocks both ultraviolet and infrared light, but is transparent to visible light ultraviolet visible infrared Glass

10. VISIBLE LIGHT Color  WAVELENGTH OR FREQUENCY Wavelength  Frequency = c

11. COLORCOLOR Any color can be made by combining primary colors  Red, Green and Blue A color TV uses mixtures of the primary colors to produce “full color” images Perceived color is a physiological effect  depends on how our eyes work

12. 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

13. What does it mean to “see” something? To “see” something, light rays from the object must get into your eyes. unless the object if a light bulb or some other luminous object, the light rays from some light source (like the sun) reflect off of the object and enter our eyes. BEER!

14. Reflection and refraction at a surface Incident Light ray reflected Light ray refracted Light ray Normal line

15. Refraction of light Water n= 1.33 Glass n=1.5 Incident ray refracted ray The refracted ray is bent more in the glass

16. Normal incidence If the ray hits the interface at a right angle (we call this normal incidence) there is no refraction even though the speed is lower The wavelength is shorter, however

17. Refraction from air into water water n = 1.33 n = 1.0 normal When a light ray goes from air into water, the refracted ray is bent away toward the normal.

18. Refraction works both ways: water into air water n = 1.33 n = 1.0 normal When a light ray goes from water into air, the refracted ray is bent away from the normal.

19. Some interesting effects due to refraction Underwater objects appear to be closer to the surface than they actually are Total internal reflection  fiber optics Seeing through a window Dispersion  rainbows

20. Where is the fish? Closer than you think! fish Apparent location Of the fish

21. Total internal reflection n 1 > n 2 n2n2 When the incident angle is too big, the refracted ray disappears and the incident ray is totally reflected back.

22. Where is the pencil? Top half of pencil Bottom half of pencil Total internal reflection on side

23. 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.

24. 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

25. 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.

26. Seeing thru a window incident transmitted reflected When the angle of incidence Is small, most of the incident Light passes thru the glass, Only a small amount is reflected

27. Windows behaving as mirrors transmitted incident reflected When the angle Of incidence is Large (grazing Incidence) more Light is reflected, The window is Like a mirror