Explanation The number of photons that enter the eye is, n = E E γ (I) Here, n is the number of photons that enter the eye, E is the energy entering the eye in each second, E γ is the energy of a single photon. Write the expression for the energy of a single photon. E γ = h c λ (II) Here, h is the Planck’s constant, c is the speed of light, λ is the wavelength. Write the expression for the energy entering the eye in each second. E γ = P Δ t (III) Here, P is the power, Δ t is the change in time. Write the expression for the power. P = I A (IV) Here, I is the current, A is the area. Use equation (IV) in equation (III),and substitute ( π d 2 4 ) for A . E = I ( π d 2 4 ) Δ t (V) Conclusion: Substitute 4.00 × 10 − 11 W / m 2 for I , 8.50 mm for d , 1.00 s for Δ t in equation (V) to find E . E = ( 4.00 × 10 − 11 W / m 2 ) ( π 4 ( 8.50 mm × 1 m 10 3 mm ) 2 ) ( 1

Principles of Physics: A Calculus-Based Text

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Chapter 28, Problem 1P

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The number of photons per second that enter the eye.

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Chapter 28, Problem 20CQ

Chapter 28, Problem 2P

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The threshold of dark - adapted (scotopic) vision is 4.0 x 10-11 W/m2 at a central wavelength of 5.00 x 102 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 x 10-11 W/m? at a central wavelength of 500 nm. If light having this intensity and wavelength enters the eye and the pupil is open to its maximum diameter of 8.50 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

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