Three thin lenses with focal lengths of .1m, .2m, .3m are placed next to each other....
Three thin lenses with focal lengths of .1m, .2m, .3m are placed next to each other. What is the equivalent focal length of a single lens?
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Three thin lenses with focal lengths of .1m, .2m, .3m are placed
next to each other....
Two thin lenses of focal lengths 86 mm and -92 mm are placed in contact. What...
Two thin lenses of focal lengths 86 mm and -92 mm are placed in contact. What power must a third lens have so that when the three are in contact the combination has a focal length of -45 mm? ANS...... diopters
Two thin lenses, with focal lengths of 25.0 cm and -30.0 cm are placed in contact...
Two thin lenses, with focal lengths of 25.0 cm and -30.0 cm are placed in contact in an orientation so that their optic axes coincide. What is the focal length of the two in combination?
Two positive thin lenses are separated by a distance of d. The focal lengths of the...
Two positive thin lenses are separated by a distance of d. The focal lengths of the lenses are f_1 = 10 cm and f_2 = 20 cm. The desired throw of the system, the object to image distance, is T = 80 cm and the desired magnification is M = -1.1. a) Use what you know about the conjugate matrix for a two lens system to solve to the distance between the lenses. Express your answer in cm. b) Where...
2. An object is placed in front of two thin symmetrical convex lenses with focal lengths...
2. An object is placed in front of two thin symmetrical convex lenses with focal lengths of F1 +10 cm and F25 cm, with a lens separation of D-42 cm. The object is 15.0 cm from lens 1. Where is the final image of the object and what is its magnification? (10 points) [Please use reverse side if you need more room. Circle the correct descriptors: real virtual enlarged reduced erect inverted Answer: X final = ML =
Two thin lenses with focal lengths of magnitude 18.0 cm, the first diverging and the second...
Two thin lenses with focal lengths of magnitude 18.0 cm, the first diverging and the second converging, are placed 11.00 cm apart. An object 3.70 mm tall is placed 4.75 cm to the left of the first (diverging) lens. (a) Where is the image formed by the first lens located? (b) How far from the object is the final image formed? (c) Is the final image real or virtual? (d) What is the height of the final image? (e) Draw...
Two converging lenses with the focal lengths f 1 = 0.2 m and f2 = 0.4...
Two converging lenses with the focal lengths f 1 = 0.2 m and f2 = 0.4 m are positioned at a distance f1 + f2 to each other. Such arrangements are called "beam expanders" and are often used in laser technology a) What is the expansion ratio W2 / W1? One of the two converging lenses is now to be replaced by a diverging lens, with the same expansion ratio W2 / W1 to be achieved. b) Which of the...
two thin lenses are separated by a distance x. The first lens has a focal length...
two thin lenses are separated by a distance x. The first lens has a focal length of 10cm, the second has a focal length of 5cm. An object is placed 15cm in front of the first lens which forms an image between the lenses. Find the separation between the lenses given that the final image is formed 10 cm behind the second lens. Please use pictures and show all steps.
10. Two lenses are in contact. One of the lenses has a focal length of +10.0cm...
10. Two lenses are in contact. One of the lenses has a focal length of +10.0cm when used ale When the two are in combination, an object 20.0cm away from the lenses forms a reali 40.0cm away from the lenses. What is the focal length of the second lens? Show your w 9. One lens has a focal length of +15.0 cm. A second lens of focal length +20.0cm is placed in contact with the first lens. What is the...
2. Two thin lenses, one a converging lens and the other a diverging lens, are arated...
2. Two thin lenses, one a converging lens and the other a diverging lens, are arated by 1.00 m along the same principal axis, as shown in the figure. The magnitude of the focal length of the converging lens is 25 cm, while the magnitude of the focal length of the diverging lens is 40 em. An object 8,25 cm tall is placed 35 cm to the left of the converging lens. (a) Where is the final image produced by...
Part A Two converging lenses are placed 35.5 cm apart. The focal length of the lens...
Part A Two converging lenses are placed 35.5 cm apart. The focal length of the lens on the right is 19.5 cm and the focal length of the lens on the left is 13.0 cm. An object is placed to the left of the 13.0 cm focal-length lens. A final image from both lenses is inverted and located halfway between the two lenses. How far to the left of the 13.0 cm focal-length lens is the original object? A2 -...
2. An object is placed in front of two thin symmetrical convex lenses with focal lengths of F1 +10 cm and F25 cm, with a lens separation of D-42 cm. The object is 15.0 cm from lens 1. Where is the final image of the object and what is its magnification? (10 points) [Please use reverse side if you need more room. Circle the correct descriptors: real virtual enlarged reduced erect inverted Answer: X final = ML =
10. Two lenses are in contact. One of the lenses has a focal length of +10.0cm when used ale When the two are in combination, an object 20.0cm away from the lenses forms a reali 40.0cm away from the lenses. What is the focal length of the second lens? Show your w 9. One lens has a focal length of +15.0 cm. A second lens of focal length +20.0cm is placed in contact with the first lens. What is the...
2. Two thin lenses, one a converging lens and the other a diverging lens, are arated by 1.00 m along the same principal axis, as shown in the figure. The magnitude of the focal length of the converging lens is 25 cm, while the magnitude of the focal length of the diverging lens is 40 em. An object 8,25 cm tall is placed 35 cm to the left of the converging lens. (a) Where is the final image produced by...
Part A Two converging lenses are placed 35.5 cm apart. The focal length of the lens on the right is 19.5 cm and the focal length of the lens on the left is 13.0 cm. An object is placed to the left of the 13.0 cm focal-length lens. A final image from both lenses is inverted and located halfway between the two lenses. How far to the left of the 13.0 cm focal-length lens is the original object? A2 -...
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