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Mohr’s circle can be used to graphically determine : a) the principle axes and principle moments of inertia of the area

Mohr's Circle for Moment of Inertia. Mohr’s circle can be used to graphically determine : a) the principle axes and principle moments of inertia of the area about O b) the moment and product of inertia of the area with respect to any other pair of rectangular axes x’ and y’ through O.

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Mohr’s circle can be used to graphically determine : a) the principle axes and principle moments of inertia of the area

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  1. Mohr's Circle for Moment of Inertia Mohr’s circle can be used to graphically determine: a) the principle axes and principle moments of inertia of the area about O b) the moment and product of inertia of the area with respect to any other pair of rectangular axes x’ and y’ through O • Graphical Solution Path • On x-axis C=(Ix+Iy)/2 • R={[(Ix-Iy)/2)^2]+Ixy^2}^(1/2) • Imax=A=C+R & Imin=B=C-R • Plot points (Ix, Ixy) & (Iy, -Ixy), and draw a line to illustrate original moment of inertia. • Proceed with analysis as in Mohr’s circle for stress to find Ix’, Iy’ and Ix’y’ at different angles. Algebraic Solution Equations Ix=Moment of inertia about x axis Iy=Moment of inertia about y axis Ixy=Product of inertia I’x = Ix cos2 θ + Iy sin2 θ – 2 Ixy sin θ cos θ I’x = Ix sin2 θ + Iy cos2 θ + 2 Ixy sin θ cos θ I’xy = Ixy cos2 θ + 0.5 ( Ix – Iy ) sin 2θ Poster by: Rosanna Anderson, Jared McCombs, and Mike Thompson

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