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Question 5 (a) Estimate the depth of evaporation (in mm units) that can be expected to occur over a 24-hour period from a location under the following conditions: Available Energy = 800 W/m² Bowen Ratio = 0.35 You can assume the latent heat of vaporisation equals 2.5MJ/kg and the density of water equals 1000kg/m³. E= mm (b) When the Bowen ratio is less than 1, does the air above the water surface get warmer? (No answer given) +

Question 5 (a) Estimate the depth of evaporation (in mm units) that can be expected to occur over a 24-hour period from a location under the following conditions: Available Energy = 800 W/m² Bowen Ratio = 0.35 You can assume the latent heat of vaporisation equals 2.5MJ/kg and the density of water equals 1000kg/m³. E= mm (b) When the Bowen ratio is less than 1, does the air above the water surface get warmer? (No answer given) +

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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Question 5 (a) Estimate the depth of evaporation (in mm units) that can be expected to occur over a 24-hour period from a location under the following conditions: Available Energy = 800 W/m² Bowen Ratio 0.35 You can assume the latent heat of vaporisation equals 2.5MJ/kg and the density of water equals 1000kg/m³. E = mm (b) When the Bowen ratio is less than 1, does the air above the water surface get warmer? (No answer given)
Transcribed Image Text:Question 5 (a) Estimate the depth of evaporation (in mm units) that can be expected to occur over a 24-hour period from a location under the following conditions: Available Energy = 800 W/m² Bowen Ratio 0.35 You can assume the latent heat of vaporisation equals 2.5MJ/kg and the density of water equals 1000kg/m³. E = mm (b) When the Bowen ratio is less than 1, does the air above the water surface get warmer? (No answer given)
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