do = 2.5f do = 2.0f f do = 1.5f
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Q: Draw using a ray diagram, locate the image of
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Q: do = 2.5f C C do = 2.0f f do = 1.5f
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For each find the position of the image using the light ray rule and draw final image
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- Using the thin lens aanalysis, light entering a lens is assumed to be refracted a. at the right surface of the lens b. at the left surface of the lens O c. at the center of the lens d. at the edges of the lens8 a) The diagram shows two light rays that form an intermediate image by the objective lens an optical compound microscope. These rays are incident on the eyepiece lens. The focal points of the two lenses are marked. not to eyepiece lens scale objective lens to Draw rays on the diagram to show the formation of the final image. b) The object is viewed when the microscope is in normal adjustment. State what is meant by normal adjustment when applied to a compound microscope. c) The object O is placed at a distance of 24.0 mm from the objective lens and the final image is formed at a distance 240 mm from the eyepiece lens. The focal length of the objective lens is 20.0 mm and that of the eyepiece lens is 60.0 mm. The near point of the observer is at a distance of 240 mm from the eyepiece lens. Calculate the distance between the lenses.Draw the ray tracing Image. (No numbers needed) just of +he first image the drewing and Final Diverging Diversing lens lens Object
- Required information In order to read his book, Stephen uses a pair of reading glasses. When he holds the book at a distance of 21.8 cm from his eyes, the glasses form an upright image a distance of 50.1 cm from his eyes. The distance between the glasses and Stephen's eyes is negligible. What is the focal length of the lens? cmA concave mirror with a focal length of 46 cm produces an image whose distance from the mirror is one-third the object distance. Find the object and image distances. Show the ray trcacing techniqueHow do I solve this optics question?
- Draw image formation diagram of a convex lens using 3 rays. Discuss the image location and property (real/virtual and magnification) when the object is at a) outside of the center b) at the center c) between the center and the focal point d) inside the focal point.Draw a predicted ray diagram for the convex mirror with the presence of a light beam converge to the focal point of the mirror you already marked. Using diagrams below