A gate of a water tank is kept in the closed position by applying a force F as shown in the figure. The depth of water(h) is 1.80 m. The height of the gate (H) is 0.500 m, and the width of the gate (into the paper) is 1 m. The gate isdesigned so that it can rotate around the hinge as shown.h (m)H (m)FGateHingePart ACalculate the minimum force F required to keep the gate inthe closed position.Express your answer to three significant figuresVOΑΣΦSubmitProvide FeedbackConstantsRequest Answer****?NextKN

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Description: A gate of a water tank is kept in the closed position by applying a force F as shown in the figure. The depth of water(h) is 1.80 m. The height of the gate (H) is 0.500 m, and the width of the gate (into the paper) is 1 m. The gate isdesigned so tha

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A gate of a water tank is kept in the closed position by applying a force F as shown in the figure. The depth of water (h) is 1.80 m. The height of the gate (H) is 0.500 m, and the width of the gate (into the paper) is 1 m. The gate is designed so that it can rotate around the hinge as shown. Part A Calculate the minimum force F required to keep the gate in the closed position. Express your answer to three significant figures

A gate of a water tank is kept in the closed position by applying a force F as shown in the figure. The depth of water (h) is 1.80 m. The height of the gate (H) is 0.500 m, and the width of the gate (into the paper) is 1 m. The gate is designed so that it can rotate around the hinge as shown. Part A Calculate the minimum force F required to keep the gate in the closed position. Express your answer to three significant figures

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter8: Centroids And Distributed Loads

Section: Chapter Questions

Problem 8.90P: The hemispherical glass bowl is filled with water. Find the location y of the center of gravity of...

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