As shown in Fig. P34.89 , 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? Figure P34.89
As shown in Fig. P34.89 , 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? Figure P34.89
As shown in Fig. P34.89, 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?
You are trying to photograph a bird sitting on a tree branch, but a tall hedge is blocking your view. However, as the drawing shows, a plane mirror reflects light from the bird into your camera. If x = 3.4 m and y = 4.8 m in the drawing, for what distance must you set the focus of the camera lens in order to snap a sharp picture of the bird's image?
A small bead 2.75 [mm] in size is located 21.0 [cm] from the center of a CONVEX spherical mirror with radius of curvature of 16.0 [cm] along the optical axis. What is the location, height, and orientation of the image of the bead?A. Image location: -0.173 [mm]; Height: 0.0226 [mm]; Orientation: InvertedB. Image location: -0.173 [mm]; Height: 0.0226 [mm]; Orientation: UprightC. Image location: -5.79 [cm]; Height: 0.759 [mm]; Orientation: InvertedD. Image location: -5.79 [cm]; Height: 0.759 [mm]; Orientation: UprightPlease show solutions on paper
A small bead 2.75 mm in size is located 21.0 cm from the center of a convex spherical mirror with radius of curvature of 16.0 cm along the optical axis. What is the location, height, and orientation of the image of the bead?
A. Image location: -0.173 mm; Height: 0.0226 mm; Orientation: InvertedB. Image location: -0.173 mm; Height: 0.0226 mm; Orientation: UprightC. Image location: -5.79 cm; Height: 0.759 mm; Orientation: InvertedD. Image location: -5.79 cm; Height: 0.759 mm; Orientation: Upright
Chapter 34 Solutions
University Physics, Volume 2 (Chs. 21-37) (14th Edition)
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