I Review | A converging lens with a focal length of 40 cm and a diverging lens with a focal length of -40 cm are 160 cm apart. A 1.5-cm-tall object is 60 cm in front of the converging lens. Part A Calculate the image position. Express your answer using two significant figures. V ΑΣφ ? x = |120 cm in front of the second lens. Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Part B Calculate the image height. Express your answer using two significant figures. ? h = cm

I Review | A converging lens with a focal length of 40 cm and a diverging lens with a focal length of -40 cm are 160 cm apart. A 1.5-cm-tall object is 60 cm in front of the converging lens. Part A Calculate the image position. Express your answer using two significant figures. V ΑΣφ ? x = |120 cm in front of the second lens. Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Part B Calculate the image height. Express your answer using two significant figures. ? h = cm

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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c) A diverging lens with a focal length of -15.0 cm is placed 12.0 cm to the right of the converging lens with a focal length of 18.0 cm. The final image that formed the virtual image is located 37.5 cm to the left of the diverging lens. Determine the position of the object that is placed to the left of the converging lens.
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a) Show that an infinitesimal change dn of the refractive index of the material of a thin lens leads to an infinitesimal change df of the focal distance, i.e., show that: df f dn n-na (1) where na is the refractive index of air. 1.530) using a discrete b) Calculate the focal distance of a thin lens for blue light (with n= version of the upper equation if the focal distance for red light (with n = 1.470) is 20.0 cm (na = 1.000).
|Resources L Give U A physicist's left eye is myopic (i.e.., nearsighted). This eye can see clearly only out to a distance of 27 cm. Find the focal length and the power of a lens that will correct this myopia when worn 2.0 cm in front of the eye. cm focal length: diopters power: Is this a converging or a diverging lens? O diverging converging
Y; H CONCAVE MIRROR Yo ← Di F Do 14+ f The figure shows light rays reflected from a concave spherical mirror. The focal length is f 0.9 cm and the object (the upright arrow) has = 1.620 cm and yo = 1 cm. Determine the lengths D; and yi. Do
30 cm f₁=10 cm 25 cm f₂=30 cm A converging lens (f = 10 cm) and a second converging lens (f = 30 cm) are placed 25 cm apart, and an object is placed 30 cm in front of the first converging lens. Object's height is 2 cm. Where is the location of the final image? 7.5 cm away from lens 2 and on the right side of lens 2. O 15 cm away from lens 2 and on the right side of lens 2. 30 cm away from lens 2 and on the right side of lens 2. 30 cm away from lens 2 and on the left side of lens 2. 7.5 cm away from lens 2 and on the left side of lens 2. 15 cm away from lens 2 and on the left side of lens 2.
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A simple camera telephoto lens consists of two lenses. The objective lens has a focal length f1 = 39.4 cm. Precisely 36.3 cm behind this lens is a concave lens with a focal length f2 = -10.2 cm. The object to be photographed is 4.03 m in front of the objective lens. ▼ Q Search Part A How far behind the concave lens should the film be placed? Express your answer using two significant figures. 15| ΑΣΦ d = Submit Part B Request Answer What is the linear magnification of this lens combination? Express your answer using two significant figures. 15. ΑΣΦ P Pearson ? ? cm Copyright © 2022 Pearson Education Inc. All rights reserved. | Terms of Use | Privacy Policy | Permissions Contact Us |
Question 1 A diverging lens has a focal length of 10 cm. An object is placed at a Not complete distance of 15 cm to the left of the lens. What is the image position? Marked out of 10.00 Select one: P Flag 10 cm to the left of the lens а. question O b. 6 cm to the left of the lens О с. 6 cm to the right of the lens O d. 15 cm to the left of the lens е. 15 cm to the right of the lens Check
Please help me with the following question, explain and make sure it's correct, thank you sm!!
An object is held 76.7 cm away from a lens. The lens has a focal length of 78.3 cm. A.) Determine the image distance. -3753 cm B.) Determine the magnification. 48.93 C.) If the object is 6.3 cm long, determine the image height. 308.25 cm D.) Which of the following are true about the image? Choose all that are true. O The image is magnified. u The image is inverted. The image is virtual. - The image is diminished. The image is real. - The image is upright. E.) Which of the following are true about the lens? Choose all that are true. The lens is concave. The lens is diverging. M The lens is converging. M The lens is convex.
di = 1 || III Problem 5: A candle (ho = 0.35 m) is placed to the left of a diverging lens (f = -0.076 m). The candle is do = 0.34 m to the left of the lens. Part (a) Write an expression for the image distance, di. a a f j P Submit В d g k S Hint Ꮎ do h m t 7 8 9 5 6 ^^^4 / * 1 2 3 + 0 - VBACKSPACE Feedback Part (b) Numerically, what is the image distance in meters? Part (c) Is this real or virtual? Part (d) Numerically, what is the image height, h¡ in meters? HOME I give up! END DEL CLEAR