Explanation Write the expression to obtain the intensity of the light. I = P 4 π l 2 Here, I is the intensity of the light, P is the power in the visible light uniformly in all directions and l is the distance between the observer eye and the light bulb. Write the expression to obtain the energy entering the eye per second. P e = I ( π D 2 4 ) Here, P e is the energy entering the eye per second, I is the intensity of the light and D is the diameter of the pupil. Substitute P 4 π l 2 for I in the above equation. P e = P 4 π l 2 ( π D 2 4 ) Further solve the above equation. P e = P 16 ( D l ) 2 Write the expression to obtain the number of protons per seconds of the visible light strike the pupil of the eye. n = P e h c / λ Here, n is the number of protons per seconds of the visible light strike the pupil of the eye, h is the Planck’s constant, c is the speed of the light, λ is the wavelength. Substitute P 16 ( D l ) 2 for P e in the above equation

Physics for Scientists and Engineers with Modern Physics

4th Edition

ISBN: 9780131495081

Author: Douglas C. Giancoli

Publisher: Addison-Wesley

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Question

Chapter 37, Problem 72GP

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The number of protons per second of visible light that will strike the pupil of the eye of an observer 250 m away.

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Chapter 37, Problem 71P

Chapter 37, Problem 73GP

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The threshold of dark-adapted (scotopic) vision is 4.0 × 10−11 W/m2 at a central wavelength of 500 nm. If light with this intensity and wavelength enters the eye when the pupil is open to its maximum diameter of 8.5 mm, how many photons per second enter the eye?

The average threshold of dark-adapted (scotopic) vision is 4.00 10-11 W/m2 at a central wavelength of 500 nm. If light with this intensity and wavelength enters the eye and the pupil is open to its maximum diameter of 9.00 mm, how many photons per second enter the eye? photons/s

(a) If the average frequency emitted by a 120 W light bulb is 5.00 * 1014 Hz and 10.0% of the input power is emitted as visible light, approximately how many visible-light photons are emitted per second? (b) At what distance would this correspond to 1.00 * 1011 visible-light photons per cm2 per second if the light is emitted uniformly in all directions?

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Physics for Scientists and Engineers with Modern Physics

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