The conical-spherical dumbbell (made from a cone and a hemisphere) shown in the figure is floating in a liquid of specific gravity equal to 1.65 such that dumbbell's bottom hemisphere is submerged in the liquid. The bottom of the circular cone and the hemisphere have the same radius equal to R= 18 cm. Obtain the following when the cone has a height, h= 42 cm. (i) The buoyant force acting on the dumbbell (ii) The mass of the dumbbell (ii) The center of buoyancy

The conical-spherical dumbbell (made from a cone and a hemisphere) shown in the figure is floating in a liquid of specific gravity equal to 1.65 such that dumbbell's bottom hemisphere is submerged in the liquid. The bottom of the circular cone and the hemisphere have the same radius equal to R= 18 cm. Obtain the following when the cone has a height, h= 42 cm. (i) The buoyant force acting on the dumbbell (ii) The mass of the dumbbell (ii) The center of buoyancy

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Description: The conical-spherical dumbbell (made from a coneand a hemisphere) shown in the figure is floating in aliquid of specific gravity equal to 1.65 such thatdumbbell's bottom hemisphere is submerged in theliquid. The bottom of the circular cone and thehe

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 8.122P: The 12-ft wide quarter-circular gate AB is hinged at A. Determine the contact force between the gate...

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