The shoot from the industrial cement factory on a bright sunny day has number density n= 10' m3, and an extinetion cross section of b= 10$ m². Assume the incident solar flux is 1000 Wm2. a) compute the radiative flux that was not attenuated (i.e., reduction from the solar flux) across the 10 m diameter smoke plume. b) Determine the optical depth. c) If this soot fills the air, what is the visual range?
The shoot from the industrial cement factory on a bright sunny day has number density n= 10' m3, and an extinetion cross section of b= 10$ m². Assume the incident solar flux is 1000 Wm2. a) compute the radiative flux that was not attenuated (i.e., reduction from the solar flux) across the 10 m diameter smoke plume. b) Determine the optical depth. c) If this soot fills the air, what is the visual range?
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Transcribed Image Text:The shoot from the industrial cement factory on a bright sunny day has number density
107 m3, and an extinction cross section of b = 10$ m². Assume the incident solar flux is 1000
Wm².
a) compute the radiative flux that was not attenuated (i.e., reduction from the solar flux)
across the 10 m diameter smoke plume.
b) Determine the optical depth.
c) If this soot fills the air, what is the visual range?
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