11) The Eccentricity, E (distance From The CG To CP)

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  4. -11) The eccentricity, e (distance from the CG to CP) is given by the equation: Where: Is = moment of inertia about the L.S.; A=Area; h = Vert. dist. from the L.S. to C.G.; Y = distance from L.S. to C.G. measured along the plane. a) e = ls / AY c) e = 1g/AY b)e = 1g / Ah d) none of these J-12) The vertical component, Fv, of the hydrostatic force acting on a
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Transcribed image text: -11) The eccentricity, e (distance from the CG to CP) is given by the equation: Where: Is = moment of inertia about the L.S.; A=Area; h = Vert. dist. from the L.S. to C.G.; Y = distance from L.S. to C.G. measured along the plane. a) e = ls / AY c) e = 1g/AY b)e = 1g / Ah d) none of these J-12) The vertical component, Fv, of the hydrostatic force acting on a curved surface is equal to the: a) weight of liquid below the curved c) weight of liquid within the curved surface surface b) weight of liquid (real or imag.) d) none of these directly above the curved surface IV-13) The horizontal component of the hydrostatic force acting on the curved surface is equal to the

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