Compute the power (in diopters) that corresponds to this focal length diopters

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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need help with parts E, F, and G

A patient cannot clearly see any object that lies closer than 31.0 cm to his left eye. However, the patient wishes to see objects as close as 20.0 cm with that eye. The patient
requests eyeglasses to address the problem.
(a) Is the patient nearsighted or farsighted?
O nearsighted
Ⓒfarsighted
(b) If the eyeglass lens lies 2.06 cm in front of the patient's eye, what is the minimum distance p (in cm) separating the lens from an object he wants to see? (Give your
answer to at least three significant digits.)
17.9
(c) The patient is unable to focus clearly on anything closer than 31.0 cm to his eye (this being the patient's near point). The image formed by the eyeglass lens must
therefore be 31.0 cm from the eye. How far, then, (in cm) would the image lie from the lens? (Give your answer to at least three significant digits.)
28.9
cm
(d) The image lies on the same side of the lens as the original object. Is the image real or virtual, and is its position a positive or negative? (Select all that apply. Note that
your answer to the previous part is the absolute value of the image position, or lgl.)
Oreal image
✔virtual image
cm
distance is positive
✔ distance is negative
(e) What is the lens focal length f (in cm)?
cm
(f) Compute the power (in diopters) that corresponds to this focal length.
diopters
9 =
f =
(g) Suppose now that the patient desires contact lenses instead of eyeglasses. What values of p, q, f, and power P would describe the correct contact lens for the eye
under discussion? (Enter p and q to at least three significant digits. Enter p, q, and fin cm. Enter P in diopters.)
P =
P =
cm
cm
cm
diopters
Transcribed Image Text:A patient cannot clearly see any object that lies closer than 31.0 cm to his left eye. However, the patient wishes to see objects as close as 20.0 cm with that eye. The patient requests eyeglasses to address the problem. (a) Is the patient nearsighted or farsighted? O nearsighted Ⓒfarsighted (b) If the eyeglass lens lies 2.06 cm in front of the patient's eye, what is the minimum distance p (in cm) separating the lens from an object he wants to see? (Give your answer to at least three significant digits.) 17.9 (c) The patient is unable to focus clearly on anything closer than 31.0 cm to his eye (this being the patient's near point). The image formed by the eyeglass lens must therefore be 31.0 cm from the eye. How far, then, (in cm) would the image lie from the lens? (Give your answer to at least three significant digits.) 28.9 cm (d) The image lies on the same side of the lens as the original object. Is the image real or virtual, and is its position a positive or negative? (Select all that apply. Note that your answer to the previous part is the absolute value of the image position, or lgl.) Oreal image ✔virtual image cm distance is positive ✔ distance is negative (e) What is the lens focal length f (in cm)? cm (f) Compute the power (in diopters) that corresponds to this focal length. diopters 9 = f = (g) Suppose now that the patient desires contact lenses instead of eyeglasses. What values of p, q, f, and power P would describe the correct contact lens for the eye under discussion? (Enter p and q to at least three significant digits. Enter p, q, and fin cm. Enter P in diopters.) P = P = cm cm cm diopters
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