sunrise Solar hoon sunset It is often necessary for calculation of daily solar radiation to have the integrated daily extraterrestrial radiation on a horizontal surface, H.. This is obtained by integrating Equation 1.10.2 over the period from sunrise to sunset. If Gye is in watts per square meter Ho in daily joules per square meter per day is 24 x 3600G H, = 360n + 0.033 cos 365 sC x (cos o cos ô sin e t sin e sin 8) (1.10.3

Calculus: Early Transcendentals
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Author:James Stewart
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Chapter1: Functions And Models
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Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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Q/ Derive equation 1.10.3 by
integrating 1.10.2 ??
Extraterrestrial irradiation on a horizontal surface
360n
G, = Ge (1+ 0.033 cos
) (cos cos & cos o + sin sin 8)
365
(1.10.2)
%D
Ver
Irradiance(Go)
W/m?
Irradiation/insolation (Ho)
J/m2 or Wh/m2
sunrise
Solar hoon
sunset
It is often necessary for calculation of daily solar radiation to have the integrated
daily extraterrestrial radiation on a horizontal surface, H,. This is obtained by integrating
Equation 1.10.2 over the period from sunrise to sunset. If G is in watts per square meter,
H, in daily joules per square meter per day is
24 x 3600Gye
360n
1+ 0.033 cos
365
%3D
X ( cos o cos & sin o, +
sin o sin 8
180
(1.10.3)
where w, is the sunset hour angle, in degrees, from Equation 1.6.10.
Irradiance
Transcribed Image Text:Q/ Derive equation 1.10.3 by integrating 1.10.2 ?? Extraterrestrial irradiation on a horizontal surface 360n G, = Ge (1+ 0.033 cos ) (cos cos & cos o + sin sin 8) 365 (1.10.2) %D Ver Irradiance(Go) W/m? Irradiation/insolation (Ho) J/m2 or Wh/m2 sunrise Solar hoon sunset It is often necessary for calculation of daily solar radiation to have the integrated daily extraterrestrial radiation on a horizontal surface, H,. This is obtained by integrating Equation 1.10.2 over the period from sunrise to sunset. If G is in watts per square meter, H, in daily joules per square meter per day is 24 x 3600Gye 360n 1+ 0.033 cos 365 %3D X ( cos o cos & sin o, + sin o sin 8 180 (1.10.3) where w, is the sunset hour angle, in degrees, from Equation 1.6.10. Irradiance
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