13. A beam of yellow light and a beam of magenta light are both shined on a white wall. What color does the wall appear to be?
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1 School Team Number Optics Proceed to the laser shoot when your team number is called. Physical Optics (30%) 1. What are the four colors used in the CMYK color model? (2 points) 2. Muscae Volitantes are microscopic particles of cellular debris freely floating in what part of the eye? (1 point) 3. Suppose that the electric field of an electromagnetic wave decreases in magnitude. Does the magnetic field increase, decrease, or remain the same? (1 point) 4. Two galaxies have their Doppler shifts measured from earth. Galaxy A has its spectral lines red shifted by 200 nm, and Galaxy B has its spectral lines blue shifted by 300 nm. (2 points) a. Which galaxy is moving faster? b. Which galaxy is moving away from us? 5. In a dark room, magenta light is shined on a green T shirt. What color does the T shirt appear to be? (1 point) 6. What is an emission (bright line) spectrum? (2 point) 7. In meters per second, what is the speed of light in a vacuum? (1 point. ½ point if rounded to 3) 8. Light is most refracted when it enters what part of the eye? (1 point) 9. Explain why a lump of sugar appears white even though each individual grain is transparent. (2 points) 10. A spaceship is moving away from an asteroid at a relative velocity of x 10 8 m/s. The spaceship sends a signal with a frequency of 5 x 10 6 Hz to a base located on the asteroid. What is the frequency of the signal measured by the base? (2 points) 11. What is the slowest recorded speed of light? (1 point) 12. Surgically removing what part of the eye greatly improves UV sensitivity? (1 point) 13. A beam of yellow light and a beam of magenta light are both shined on a white wall. What color does the wall appear to be? (1 point) 14. What type of cell is responsible for color vision? (1 point)
2 15. When light with a wavelength of 350 nm is shined on a sample of highlighter fluid, the fluid emits a bright yellowish green grow. a. What is the frequency of the original light? On what portion of the electromagnetic spectrum is this light?(2 points) b. What is the name for the glowing of the highlighter fluid? (1 point) 16. Would an object moving left to right with respect to you have a Doppler shift? Why or why not? (2 points) 17. What primary color is the human eye most sensitive to? (1 point) 18. Arrange the seven main types of electromagnetic radiation form lowest to highest frequency (4 points;.5 point for each given, 1 point for correct order,.5 point for lowest to highest) 19. What type of spectrum is produced by electrons dropping from an excited state to a lower energy state? (1 point) 20. What part of the eye has a structure similar to an onion, made up of about 22,000 very fine layers? (1 points) 21. What color is a perfect mirror? (1 point) Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. 1. Snow reflects almost all of the light incident upon it. However, a single beam of light is not reflected in the form of parallel rays. This is an example of reflection off of a surface. a. regular; rough c. diffuse; specular b. regular; specular d. diffuse; rough 2. When incoming rays of light strike a flat mirror at an angle close to the surface of the mirror, the reflected rays are a. inclined high above the mirror s surface. b. parallel to the mirror s surface. c. perpendicular to the mirror s surface. d. close to the mirror s surface.
3 3. When a straight line is drawn perpendicular to a flat mirror at the point where an incoming ray strikes the mirror s surface, the angles of incidence and reflection are measured from the normal and a. the angles of incidence and reflection are equal. b. the angle of incidence is greater than the angle of reflection. c. the angle of incidence is less than the angle of reflection. d. the angle of incidence can be greater than or less than the angle of reflection. 4. If a light ray strikes a flat mirror at an angle of 14 from the normal, the reflected ray will be a. 13 from the mirror s surface. c. 90 from the mirror s surface. b. 27 from the normal. d. 14 from the normal. 5. If you stand 3.0 m in front of a flat mirror, how far away from you would your image be in the mirror? a. 1.5 m c. 6.0 m b. 3.0 m d m 6. Which of the following best describes the image produced by a flat mirror? a. virtual, inverted, and magnification greater than one b. real, inverted, and magnification less than one c. virtual, upright, and magnification equal to one d. real, upright, and magnification equal to one 7. In the diagram above, the image of object B would be a. real, reduced, and upright. c. virtual, reduced, and inverted. b. virtual, enlarged, and upright. d. virtual, reduced, and upright. 8. Which best describes the image of a concave mirror when the object is located somewhere between the focal point and twice the focal point distance from the mirror? a. virtual, upright, and magnification greater than one b. real, inverted, and magnification less than one c. virtual, upright, and magnification less than one d. real, inverted, and magnification greater than one 9. A parabolic mirror, instead of a spherical mirror, can be used to reduce the occurrence of which effect? a. spherical aberration c. chromatic aberration b. mirages d. light scattering
4 10. Refraction is the term for the bending of a wave disturbance as it passes at an angle from one into another. a. glass c. area b. medium d. boundary 11. Which is an example of refraction? a. A parabolic mirror in a headlight focuses light into a beam. b. A fish appears closer to the surface of the water than it really is when observed from a riverbank. c. In a mirror, when you lift your right arm, the left arm of your image is raised. d. Light is bent slightly around corners. 12. The of light can change when light is refracted because the wavelength changes. a. frequency c. color b. media d. transparency 13. Light is NOT refracted when it is a. traveling from air into a glass of water at an angle of 35 to the normal. b. traveling from water into air at an angle of 35 to the normal. c. striking a wood surface. d. traveling from air into a diamond at an angle of When light passes at an angle to the normal from one material into another material in which its speed is higher, a. it is bent toward the normal to the surface. b. it always lies along the normal to the surface. c. it is unaffected. d. it is bent away from the normal to the surface. 15. When a light ray moves from air into glass at an angle of 45, its path is a. bent toward the normal. c. parallel to the normal. b. bent away from the normal. d. not bent. 16. Which of the following describes what will happen to a light ray incident on a glass to air boundary at greater than the critical angle? a. total reflection c. partial reflection, partial transmission b. total transmission d. partial reflection, total transmission
5 17. Atmospheric refraction of light rays is responsible for which effect? a. spherical aberration c. chromatic aberration b. mirages d. total internal reflection in a gemstone 18. If atmospheric refraction did not occur, how would the apparent time of sunrise and sunset be changed? a. Both would be later. b. Both would be earlier. c. Sunrise would be later, and sunset would be earlier. d. Sunrise would be earlier, and sunset would be later. Short Answer 19. What type of reflection is illustrated in the figure above? 20. What type of reflection is illustrated in the figure above? 21. When rays of light are incident upon a spherical mirror far from the principal axis, fuzzy images form. What is this characteristic of spherical mirrors? 22. Spherical aberration may be avoided by employing a mirror or by making sure that the diameter of a spherical mirror is sufficiently. 23. The focal point and center of curvature of a spherical mirror all lie along the. 24. When does refraction occur? 25. Why is it impossible to see an atom with a compound microscope? 26. In a refracting telescope, is the image upright or inverted? Explain. 27. The critical angle for internal reflection inside a certain transparent material is found to be 48. If entering light has an angle of incidence of 52, predict whether the light will be refracted or whether it will undergo total internal reflection. 28. Why do motorists sometimes see what appear to be wet spots on the road on a dry summer day? 29. What is dispersion? 30. What is the position and kind of image produced by the lens above? Draw a ray diagram to support your answer. Problem 31. Where would the image of a 4.0 cm tall object that is 12 cm in front of a flat mirror be located? 32. A convex mirror has a focal length of 17 cm. What is the radius of curvature? 33. A ray of light passes from air into fluorite (n= 1.434) at an angle of 19 to the normal. What is the refracted angle?
6 34. An object is placed along the principal axis of a thin converging lens that has a focal length of 22 cm. If the distance from the object to the lens is 36 cm, what is t he distance from the image to the lens? 35. A ray of light travels across a liquid to glass interface. The index of refraction for the liquid is 1.75 and 1.52 for the glass. If the light meets the interface at an angle of 59, predict whether the light will be refracted or whether it will undergo total internal reflection.
7 Camas Division B Invitational Optics KEY Physical Optics 1. Cyan, Magenta, Yellow, Black 2. Vitreous Humor 3. Decrease 4. A. Galaxy B B. Galaxy A 5. Black 6. Spectrum of frequencies of electromagnetic radiation emitted by the element s atoms or the compound s molecules when they are returned to a lower energy state ,792, Cornea 9. The grains are small but much larger than the wavelengths involved, so light enters each transparent particle, is reflected and refracted several times, and emerges. There is no distinciton among any of the frequency components, so the reflected light reaching the observer is white x 10 7 Hz Lens 13. Pink 14. Cone 15. a THz ; Ultraviolet (UVa) b. Fluorescence. 16. Yes. It is moving away from you. (The speed can be found using the Pythagorean theorem) 17. Green (or Yellow) 18. Radio, Microwave, Infrared, Visible, UV, X Ray, Gamma 19. Absorption spectrum 20. Lens 21. White Geometric Optics MULTIPLE CHOICE 1. ANS: D DIF: I OBJ: ANS: D DIF: I OBJ: ANS: A DIF: I OBJ: ANS: D DIF: II OBJ: ANS: C DIF: I OBJ: ANS: C DIF: I OBJ: ANS: D DIF: I OBJ:
8 8. ANS: D DIF: IIIB OBJ: ANS: A DIF: I OBJ: ANS: B DIF: I OBJ: ANS: B DIF: II OBJ: ANS: C DIF: I OBJ: ANS: C DIF: I OBJ: ANS: D DIF: I OBJ: ANS: A DIF: II OBJ: ANS: A DIF: I OBJ: ANS: B DIF: IIIB OBJ: ANS: C DIF: I OBJ: SHORT ANSWER 19. ANS: diffuse DIF: I OBJ: ANS: specular DIF: I OBJ: ANS: spherical aberration DIF: I OBJ: ANS: parabolic; small DIF: I OBJ: ANS: principal axis DIF: I OBJ: ANS: Refraction occurs when light s velocity changes. DIF: I OBJ: ANS: In order to be seen, the object under a microscope must be at least as large as a wavelength of light. An atom is several times smaller than a wavelength of visible light. DIF: II OBJ: ANS: It is inverted on the objective lens, and the eyepiece magnifies this inverted object. DIF: I OBJ: ANS: The light will undergo total internal reflection. DIF: IIIB OBJ: ANS: Light rays from the blue sky above are refracted by the warm air next to the dark, hot road and end up traveling upward into the motorists eyes. DIF: I OBJ: ANS: Dispersion is the process of separating polychromatic light into its component wavelengths because n is a function of wavelength for all material mediums. Snell s law says that the angles of refraction will be different for different wavelengths even if the angles of incidence are the same. DIF: I OBJ: ANS: A real image will be produced between F and 2F. DIF: II OBJ: PROBLEM 31. ANS: 12 cm directly behind the mirror DIF: I OBJ: ANS: 34cm DIF: IIIB OBJ: ANS: 13 DIF: IIIA OBJ: ANS: 0.57 m DIF: IIIB OBJ: ANS: The light will be refracted. DIF: IIIB OBJ:
9 Optictestchs2011 (B)
10 (22) (28) (23) (24) (30) (25) (26) (29) (27)
11 Trial 1: (Concave Mirror) The object is located beyond the center of curvature. The image is located between the center of curvature (C) and the principal focus (F). It is reduced in size and inverted. The image is real. Trial 2: (Concave Mirror) The object is located at the center of curvature. The image is located at the center of curvature. It is inverted. The image is real. Trial 3: (Concave Mirror) The object is located between the center of curvature and the principal focus. The image is located beyond the center of curvature. It is enlarged in size and inverted. The image is real. Trial 4: (Concave Mirror) The object is located at the principal focus. No image is formed. All rays are reflected from the mirror as parallel rays. Trial 5: (Concave Mirror) The object is located between the principal focus and the mirror. The image appears to be located behind the mirror. It is enlarged in size. The image is virtual.
12 Trial 6: (Convex Mirrors) All convex mirrors form a virtual image reduced in size. NOTE: On Trial 4, the ray that does not go through the center of curvature should go through the principal focus. Trial 1: (Convex Lens) The object is located beyond twice the focal length. The image is located between the focal length and twice the focal length on the opposite side of the lens. It is reduced in size and inverted. The image is real. Trial 2: (Convex Lens) The object is located at twice the focal length. The image is located at twice the focal length on the opposite side of the lens. It is inverted. The image is real. Trial 3: (Convex Lens) The object is located between twice the focal length and the focal length. The image is located beyond twice the focal length on the opposite side of the lens. It is enlarged in size and inverted. The image is real. Trial 4: (Convex Lens) The object is located at the principal focus. Just like mirrors, no image is formed at this position. All rays are refracted from the lens as parallel rays. Trial 5: (Convex Lens) The object is located between the principal focus and the lens. The image appears to be located behind the object on the same side of the lens. It is enlarged in size. The image is virtual.
13 Trial 6: (Concave Lenses) All concave lenses from a virtual image reduced in size. Cones Cornea Iris Lens Optic Nerve Retina Rods The color receptors of your eyes; they sense color. They are used more during daytime. There are 7 million cones in the eye. The transparent part of the eye covering the iris and pupil. It refracts light and accounts for about two- thirds of the eye's optical power. The iris controls the size and diameter of the pupils, and in turn, the amount of light that enters the retina. The lens helps refract light to focus it onto the retina. It changes shape to adjust its focal distance so that the eye can focus on objects at different distances Sends information from the retina to the brain The retina lines the inner surface of the eye and creates images via the optics of the eye, sent to the brain via the optic nerve The photoreceptors in your eyes; they sense brightness and are more used during nighttime. There are 120 million rods in the eye.
14 The primary colors of light are red, blue and green. The secondary colors are yellow, magenta, and cyan. You can mix colors in two different ways; additive or subtractive. When you 'add' colors together you are mixing red, blue, and green together to make the three secondary colors, just like in a computer. Yellow is made of green and red, magenta is made of red and blue, and cyan is made of green and blue. Think of adding colors like shining two lights onto the same spot. You also have subtractive mixing, which is what happens in printers. When you mix cyan, magenta, and/or yellow, only the primary colors in common show through. Therefore, when using the subtractive method, yellow + magenta = red, cyan + yellow = green, and cyan + magenta = blue.
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16 Team # Team Name Test Score Optics Scoring Sheet # Mirrors Season Version 1.0 Dist. Barrier from TP Mirror Laser No Wall Other Comp. Viols. Unsafe DQ Best TS 48 MS AS TS 1 Mesa Robles Blue N N N ,75 49, Mesa Robles Gold N N N ,63 33, Oak Middle School A N N Y 7,2 0,72 28,13 36, Oak Middle School B N N Y 7,2 12,78 6,25 26, Ladera Vista Blue N N Y 14,4 11,79 23,96 50, Ladera Vista Vanadium ,292-7 Kennedy Blue N N Y 7,2 13, ,7 9 8 Fisler Blue N N Y 7,2 22,05 10,42 39, Fisler Maroon N N N 8 22,3 14,58 44, Jacobsen Middle School N N Y 7,2 0 16,67 23, Pioneer 21 2 N Y Y 7,2 0 21,88 29, Sierra Vista Middle School N N N 16 23,8 31,25 71, Carmel Valley MS Avalanche N N Y 7,2 20,7 28,13 56, Carmel Valley MS Cosmos N N N 20 24,3 36,46 80, Horace Mann N N Y 14,4 22, , Jeffrey Trail Blue N N Y 18 21, , Jeffrey Trail Orange N N Y 10,8 0 39,58 50, Chaparral A N N Y 18 20, , Chaparral B N N Y 14,4 22,23 18,75 55, Oak Valley MS DaVinci N N Y 14,4 21,78 35,42 71, Oak Valley Newton N N N 12 21,1 17,71 50, Miller Blue Y N Y 3,6 0 8,333 16, Miller Yellow N N Y 3,6 0 28,13 31, Ocean Air Rocks N N Y 14,4 21,42 37,5 73, Black Mountain 1 Denali N N Y 14,4 21,15 18,75 54, Black Mountain 2 Team Everest N N Y 7,2 3,42 27,08 37, Orange County School of the Arts N N N ,208 36, Meadowbrook N N Y 7,2 7,92 37,5 52, Meadowbrook N N Y 7,2 0 15,63 22, South Pointe Middle Team A N N Y 18 20,7 35,42 74, South Pointe Middle Team B Y N Y 3,6 22,23 13,54 43, Kraemer Gold N N Y 3,6 0 35,42 39, Kraemer Blue N N N 16 24,8 31,25 72, Kraemer N N Y 3,6 0 8,333 11, Suzanne Middle School A N N Y 10,8 0 30,21 41, Suzanne Middle School B 24 5 N Y Y Brea Junior High A , Brea Junior High B N N N 12 23, , Kennedy White N N Y 3,6 0 8,333 11, Ocean Air Wins Y N Y 18 4,95 27,08 54, Ocean Air MaYers N Y N ,83 36, Kraemer MS N N Y 10,8 0 15,63 26, Final Score Rank
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