The 4 m diameter circular gate of shown in Figure 3 is located in the inclined wall of a largereservoir containing water (specific weight, Y= 9.80 kN/m³). The gate is mounted on a shaftalong its horizontal diameter and the water depth is 10 m above the shaft. Given lç for circulargate isWater levelAngle 60°10 mStopShaftFigure 3a) Analyse the information given and determine the magnitude and location of the resultantforce exerted on the gate by the water.b) Combine all forces involved on the circular gate and evaluate the moment that wouldhave to be applied to the shaft to open the gate.

Name: The 4 m diameter circular gate of shown in Figure 3 is located in the
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Description: The 4 m diameter circular gate of shown in Figure 3 is located in the inclined wall of a largereservoir containing water (specific weight, Y= 9.80 kN/m³). The gate is mounted on a shaftalong its horizontal diameter and the water depth is 10 m above

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The 4 m diameter circular gate of shown in Figure 3 is located in the inclined wall of a large reservoir containing water (specific weight, Y= 9.80 kN/m³). The gate is mounted on a shaft along its horizontal diameter and the water depth is 10 m above the shaft. Given lç for circular TR2 gate is Water level Angle 60° 10 m Stop Shaft Figure 3 a) Analyse the information given and determine the magnitude and location of the resultant force exerted on the gate by the water. b) Combine all forces involved on the circular gate and evaluate the moment that would have to be applied to the shaft to open the gate.

The 4 m diameter circular gate of shown in Figure 3 is located in the inclined wall of a large reservoir containing water (specific weight, Y= 9.80 kN/m³). The gate is mounted on a shaft along its horizontal diameter and the water depth is 10 m above the shaft. Given lç for circular TR2 gate is Water level Angle 60° 10 m Stop Shaft Figure 3 a) Analyse the information given and determine the magnitude and location of the resultant force exerted on the gate by the water. b) Combine all forces involved on the circular gate and evaluate the moment that would have to be applied to the shaft to open the gate.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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