6. A thin converging lens of focal length f =+12.0 cm is separated from a thin diverging lens by a distance d = 24.0 cm . The focal length of the second lens is f, =-48.0 cm. An object with height y = 4.20 cm is placed on the optical axis at p, =18.0 cm in front of the first lens. Pay attention to +/- signs. What is the location of the image produced by the first lens alone, i ? а. b. What is the lateral magnification m , produced by the first lens alone? с. Where is the final image of the two lens system located relative to the second lens (i.e. what is i,)?

6. A thin converging lens of focal length f =+12.0 cm is separated from a thin diverging lens by a distance d = 24.0 cm . The focal length of the second lens is f, =-48.0 cm. An object with height y = 4.20 cm is placed on the optical axis at p, =18.0 cm in front of the first lens. Pay attention to +/- signs. What is the location of the image produced by the first lens alone, i ? а. b. What is the lateral magnification m , produced by the first lens alone? с. Where is the final image of the two lens system located relative to the second lens (i.e. what is i,)?

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)...

See similar textbooks

Similar questions

1. Object stands on the central axis of a thin symmetric lens. For this situation, each problem in the table refers to (a) the lens type, converging (C) or diverging (D) (b) the focal distance f (c) the object distance p (d) the image distance i (e) the lateral magnification m. (All distances are in centimeters.) (f) whether the image is real (R) or virtual (V) () inverted (I) or noninverted (NI) from the object (g) on the same (S) side of the lens as the object or on the opposite (0) side. Fill in the missing information rounding to 2 sig. figs. (*_ (d) i () R/V (e) (a) Туре (g) I/NI (h) Side (b) (c) P. +5.0 +10 -20 +8.0 NI 4.0 +0.25 S C +10 +13
xxi
* 32. Use ray diagrams to locate the images of the following objects: (a) an object that is 10 cm from a convex lens of +15-cm focal length and (b) an object that is 10 cm from a concave lens of -15-cm focal length. (c) Calculate the image locations for parts (a) and (b) using the thin lens equation. Check for consistency.
1. A patient enters an eye doctor’s office and finds the doctor tells him that his near point is 10.0 cm. The doctor also finds the patient’s far point (with eyes relaxed) is 125 cm. Each eye lens can be assumed to be 2.00 cm from the retina. a) Between what limits (units: diopters) does the power of this patient’s lens (technically lens+cornea combination) vary? b) The doctor is going to prescribe glasses. Calculate the power of the eyeglass lens the patient should use for relaxed distance vision. Is the lens converging or diverging?
A battery produces 40.8 V when 8.40 A is drawn from it,and 47.3 V when 2.80 A is drawn. What are the emf andinternal resistance of the battery?
5. A diverging lens has a focal length that has a magnitude of 32.0 cm. An object is placed 21.0 cm in front of this lens. Calculate the magnification.
3. A cell phone has a fixed focal length lens of f = 3.85 mm = 0.00385 m and can take pictures over a range of distances from S. = 0.5 m to S,= infinity. Over what range of distances (S₁) does the lens in the cellphone have to move to focus an image at these two extremes in object distance?
8. Given a biconvex lens made of glass of index 1.5. The magnitude of the radius of curvature is the same for both surfaces. The lens has a focal length of 75 mm. What focal length would the lens have if it had the same surface curvatures but an index of 3.0? Express in millimeters.
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
3. An object is placed 12.0 cm in front of a diverging lens of focal length 6.0 cm. Find the image, its properties and the magnification. A plano-convex lens having a focal length of 25.0 cm is to be made of glass of refractive index n = 1.520. Calculate the radius of curvature of the grinding and polishing tools that must be used to make this lens. 4.
4. The primary mirror of a Cassegrain telescope has a radius of curvature rp = 30.00 m. The secondary mirror is 10.00 m from the primary mirror. What is the radius of curvature of the secondary mirror if the image of a distant star falls 1.00 m behind the primary mirror?
Molly has a near point at 45 cm and requires eyeglasses to correct her vision. - What should be the prescription (i.e. the lens power) for her eye? Note: Corrective lenses are available in increments in power of 0.25 diopters, e.g. +1.0, +1.25, +1. 50,...,etc. (Answer must be divisible by 0.25 and the lenses should have the lowest power for which the new near point with the lens is no further than 25 cm) - A 9.0 mm base curve (i.e. radius of curvature) will best fit her cornea. Using the material with index of refractive 1.422, what should be the radius of curvature for the other side of the lens? - What is the new far point after wearing the contact lens.