The filament of the light bulb is cylindrical and has a length of 20mm and a radius of 0.05mm. An incandescent filament heats up to 5000K when a light is on, and imagine the filament as a black body. If the pupil of the eye is fully dilated to a radius of 3 mm when a person observes a light bulb at night from a distance of 10 km, find (a) the power emitted by the filament. (b) Find the radiant power received by the human eye. (c) Find the maximum wavelength of light emitted by the filament. (d) Find the number of photons the human eye receives in 1 second. Assume that the average wavelength of radiation is 600 nm.

The filament of the light bulb is cylindrical and has a length of 20mm and a radius of 0.05mm. An incandescent filament heats up to 5000K when a light is on, and imagine the filament as a black body. If the pupil of the eye is fully dilated to a radius of 3 mm when a person observes a light bulb at night from a distance of 10 km, find (a) the power emitted by the filament. (b) Find the radiant power received by the human eye. (c) Find the maximum wavelength of light emitted by the filament. (d) Find the number of photons the human eye receives in 1 second. Assume that the average wavelength of radiation is 600 nm.

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter3: Interference

Section: Chapter Questions

Problem 12CQ: An inventor notices that a soap bubble is dark at its thinnest and realizes that destructive...

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