Explanation 1) Concept: We use the photon energy formula. Substituting the frequency in energy of photon, we get the new formula of energy in terms of wavelength. Substituting the energy formula in rate of emission of photon formula, we get the rate of absorbtion of photon. Finally taking the rate per unit area, we get the required result. 2) Formula: i) E = h c λ ii) R r a t e = P e m i t E iii) A = π r 2 3) Given: i) Wavelength of red light λ = 633 n m ii) Diameter of the beam d = 3.5 m m iii) Rate of energy emission P e m i t = 5 m W 4) Calculations: Rate of emission of the photon is R r a t e = r a t e o f e n e r g y o f e m i s s i o n e n e r g y p e r e m i t t e d p h o t o n = P e m i t E E = h f f = c λ E = h c λ R r a t e = λ P e m i t h c A = c r o s s - s e

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Question

Chapter 38, Problem 4P

To determine

To find:

Rate of absorption of photons per unit area.

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Chapter 38, Problem 3P

Chapter 38, Problem 5P

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A helium–neon laser emits red light at wavelength l=633 nm in a beam of diameter 3.5 mm and at an energy-emission rate of 5.0mW. A detector in the beam’s path totally absorbs the beam. At what rate per unit area does the detector absorb photons?

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?

A light detector (your eye) has an area of 2.00*10-6 m2 and absorbs 80% of the incident light, which is at wavelength 500 nm. The detector faces an isotropic source, 3.00 m from the source. If the detector absorbs photons at the rate of exactly 4.000 s-1, at what power does the emitter emit light?

Chapter 38 Solutions

Fundamentals of Physics Extended

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