Windmill Electric Power It is becoming increasingly common to use wind turbines to generate electric power. The power output generated by a windmill depends upon the blade’s diameter (D) and velocity of the wind (V). A good estimate of the power output is given by the following formula: P = (0.01328)D2V3 where P= Power Output (Watts) D = Diameter of the windmill blade in meters V = Velocity of the wind in m/s. Use the Secant method to determine what should be the diameter of the windmill blade if one wishes to generate 800 watts of electric power when the wind speed is 16mph. (1 m/s = 2.2369 mph).Use Ea ≤ 0.00001

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Windmill Electric Power It is becoming increasingly common to use wind turbines to generate electric power. The power output generated by a windmill depends upon the blade’s diameter (D) and velocity of the wind (V). A good estimate of the power output is given by the following formula: P = (0.01328)D2V3 where P= Power Output (Watts) D = Diameter of the windmill blade in meters V = Velocity of the wind in m/s. Use the Secant method to determine what should be the diameter of the windmill blade if one wishes to generate 800 watts of electric power when the wind speed is 16mph. (1 m/s = 2.2369 mph).Use Ea ≤ 0.00001.
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