1. An object is placed 45 cm in front and to the right of a converging mirror of focal length 30 cm. An identical converging mirror is placed 100 cm to the right of the first. What are the nature, orientation, location, and magnification of the final image formed by the second mirror? Consider the light rays striking mirror 1 first.
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- An object 27.5 cm tall is placed 10.9 cm in front of a mirror. What type of mirror and what radius of curvature are needed to create an upright image that is 44.5 cm in height? What is the magnification of the image? Is the image real or virtual? mirror concave convex radius of curvature cm magnification nature real virtualA concave makeup mirror is designed so that a person 21 cm in front of it sees an upright image magnified by a factor of two. What is the radius of curvature of the mirror? R = m5 A 3.35 cm tall object is placed 11.6 cm in front of a concave mirror whose focal length is 17.5 cm. Determine the location and height of the image. location cm height cm
- An object 4.5cm high is placed 50cm in front of a convex mirror with a radius of curvature of 20cm. What is the height of the image? Describe the image.1. As shown in Fig. 1 the candle is at the center of curvature of the concave mirror, whose focal length is 10.0 cm. The converging lens has a focal length of 32.0 cm and is 85.0 cm to the right of the candle. The candle is viewed looking through the lens from the right. The lens forms two images of the candle. The first is formed by light passing directly through the lens. The second image is formed from the light that goes from the candle to the mirror, is reflected, and then passes through the lens. (a) For each of these two images, draw a principal-ray diagram that locates the image. (b) For each image, answer the following questions: (i) Where is the image? (* (ii) Is the image real or virtual? ) (iii) Is the image erect or inverted with respect to the original object? it K- -85.0 cm- Fig. 12. An object 3.00 cm tall is placed 12.0 cm from the front of a concave mirror with a radius is the height of the image? cm 60 $$1 ISS ssf60 ssfát 60 ssf60 s 09588 093 ssf60 ssf60 Curvature of 41.0 cm. What
- 51 The lens and the mirror in Figure P23.51 are separated by 1.00 m and have focal lengths of +80.0 cm and -50.0 cm, respectively. If an object is placed 1.00 m to the left of the lens, where will the final image be located? State whether the image is upright or inverted, and determine the overall magnification. Object 1.00 m- Lens -1.00 m- Figure P23.51 MirrorA 1.0 cm tall light bulb is placed 50 cm from a convex lens that has a focal distance of 40 cm. Which of the following statements is true of the bulb's image? a. The image is virtual, the distance to the image is 12.5 cm and the height of the image is 0.25 cm tall. b. The image is virtual, the image distance is -200 cm and the height of the image is 4.0 cm tall. c. The image is real, the distance to the image is 22.2 cm and the height of the image is 0.44 cm tall. d. The image is real, the distance to the image is 200 cm and the height of the image is 4.0 cm tall. e. The image is virtual, the distance to the image is 22.2 cm and the height of the image is 0.44 cm tall.8. A convex mirror (f₁ = -5.60 cm) and a concave mirror (f₂ = 9.00 cm) are facing each other and are separated by a distance of 15.0 cm. An object is placed between the mirrors and is 7.5 cm from each mirror. Consider the light from the object that reflects first from the convex mirror and then from the concave mirror. What is the distance of the image (d₁2) produced by the concave mirror? cm 285 jeh20 285 jeh285 jch285 jch285 j
- Problem 4. Ray tracing with a mirror. We will use three principle rays. Ray 1: drawn from the tip of the object, parallel to the principle axis of the mirror and is reflected back through the focal point F V Ray 2: drawn from the tip of the object through the focal point and reflected parallel to the principle axis.. Missin -L Ray 3: Drawn from the tip of the object through the center of curvature C and reflected back on itself. ( ^n The object whose reflection we are calculating is represented as an arrow with the tip of the object being the tip of the arrow. Principle axis C invered < a. Draw the three rays to show where the image is. Draw the image as an arrow. b. Is the image upright or inverted?? c. Is the image real or virtual real d. Is the image the same size, bigger than or smaller than the actual object? Bigge 1 FA concave mirror (f1 = 6.00 cm) and a convex mirror (f2 = −9.00 cm) are facing each other and are separated by a distance of 30.0 cm. An object is placed halfway between the mirrors. Consider the light from the object to reflect first from the concave mirror and then from the convex mirror. a) What is the distance of the first image (di1) that is produced by the concave mirror? b) What is the magnification (m1)? c) Find the distance of the object for the convex mirror (do2)? d) What is the distance of the final image (di2) produced by the combination of the two mirrors? e) What is the magnification (m2)? f) What is the overall magnification (m)? g) Describe the final image formed by the combination of the two mirrors.7. In front of a spherical convex mirror of radius 45.4 cm, you position an object of height 3.40 cm somewhere along the principal axis. The resultant image has a height of 2.38 cm. How far from the mirror is the object located? 9.7 cm 17.5 cm 11.6 cm 5.8 cm