Determine the potential evapotranspiration from an area month of June using Penman's formula. The following data are available: Latitude Elevation Mean monthly temperature Mean relative humidity Mean observed sunshine hours Wind velocity at 4 m height Nature of surface cover 23° N 175.55 m (above sea level) 29 °C 75% 8h 95 km/day Water surface
Determine the potential evapotranspiration from an area month of June using Penman's formula. The following data are available: Latitude Elevation Mean monthly temperature Mean relative humidity Mean observed sunshine hours Wind velocity at 4 m height Nature of surface cover 23° N 175.55 m (above sea level) 29 °C 75% 8h 95 km/day Water surface
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Subject: Hydrolody
Transcribed Image Text:Determine the potential evapotranspiration
from an area month of June using Penman's formula. The
following data are available:
Latitude
Elevation
Mean monthly temperature
Mean relative humidity
Mean observed sunshine hours
Wind velocity at 4 m height
Nature of surface cover
23° N
175.55 m (above sea level)
29 °C
75%
8h
95 km/day
Water surface
Transcribed Image Text:Formula for Crop Evapotranspiration
Actual Available Soil Water = Total Available Water - ET, > days
Actual Evapotranspiration =
AASW
(1-P)TAW
× ET, X K
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Step 1: Introduce the problem statement
VIEWStep 2: State the formula to determine potential evapotranspiration
VIEWStep 3: Determine slope of saturation vapor pressure vs temperature curve
VIEWStep 4: Determine net radiation
VIEWStep 5: Determine parameter for wind velocity and saturation deficit
VIEWStep 6: Compute potential evapotranspiration
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