2- Consider the hydrostatic pressure apparatus from Lab 1, shown below. L is the length of the balance arm, y is the dis

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2 Consider The Hydrostatic Pressure Apparatus From Lab 1 Shown Below L Is The Length Of The Balance Arm Y Is The Dis 1 (445.75 KiB) Viewed 44 times

2- Consider the hydrostatic pressure apparatus from Lab 1, shown below. L is the length of the balance arm, y is the distance from the pivot point to the center of pressure, and m is the mass on the weight hanger. Quadrant Clamping screw Pivot L Adjustable counterbalance Beam level indication 仁 EB 160 Scale Weight hanger. Max W.L 100 у End face m Spirit level Drain cock Levelling feet Calculate the hydrostatic force, theoretical depth of center of pressure, and experimental depth of center of pressure given the following: (15 points) Height of vertical face of quadrant = 0.2 m - Width of quadrant = 0.1 m - Length of balance arm = 0.4 m - Bottom of quadrant to pivot = 0.45 m - Mass = 0.5 kg - Depth of immersion = 0.1 m - Density of water = 1000 kg/m3 g=9.8 m/s2 Note: The drawing is schematic. You need to identify if the quadrant is fully submerged or not.