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The average weather conditions are; Net radiation Air Temperature Relative Humidity Wind speed Height Roughness Height Atmospheric pressure Psychometric constant = 100 W/square meter = 25 deg. C = 55% = 2.7 m per sec = 2 meters above the water surface = 0.02 cm = 101 kPa = 65 Pa/deg C Gradient of saturated vapor pressure = 185 Pa/deg C Compute evaporation rate in millimeters per day using: a. Energy method b. Aerodynamic method c. Combined method d. Priestly-Taylor method

The average weather conditions are; Net radiation Air Temperature Relative Humidity Wind speed Height Roughness Height Atmospheric pressure Psychometric constant = 100 W/square meter = 25 deg. C = 55% = 2.7 m per sec = 2 meters above the water surface = 0.02 cm = 101 kPa = 65 Pa/deg C Gradient of saturated vapor pressure = 185 Pa/deg C Compute evaporation rate in millimeters per day using: a. Energy method b. Aerodynamic method c. Combined method d. Priestly-Taylor method

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The average weather conditions are; Net radiation Air Temperature Relative Humidity Wind speed Height = 2.7 m per sec = 2 meters above the water surface = 0.02 cm = 101 kPa = 65 Pa/deg C Gradient of saturated vapor pressure = 185 Pa/deg C Roughness Height Atmospheric pressure Psychometric constant = 100 W/square meter = 25 deg. C = 55% Compute evaporation rate in millimeters per day using; a. Energy method b. Aerodynamic method c. Combined method d. Priestly-Taylor method
Transcribed Image Text:The average weather conditions are; Net radiation Air Temperature Relative Humidity Wind speed Height = 2.7 m per sec = 2 meters above the water surface = 0.02 cm = 101 kPa = 65 Pa/deg C Gradient of saturated vapor pressure = 185 Pa/deg C Roughness Height Atmospheric pressure Psychometric constant = 100 W/square meter = 25 deg. C = 55% Compute evaporation rate in millimeters per day using; a. Energy method b. Aerodynamic method c. Combined method d. Priestly-Taylor method
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