The vertical axis represents the value of the product of inertia, with a positive value pointing up. The horizontal axis represents the value of the moment of inertia. Solved problem-case-2-Mohr’s circle of inertia-drawing the circle.įor the Solved problem-case-2-Mohr’s circle of inertia, We start by drawing two intersecting axes. It is required to determine the principal moment of inertia and the angle alpha that the x-axis makes with the maximum moment of inertia. the moment of inertia about y-axis Iy is 24 inch4. In this post, we will introduce a solved problem-case-2-Mohr’s circle of inertia, where Ix is lesser than Iy and the product of inertia Ixy is positive.įor a given Area the following data are presented as follows: the moment of inertia Ix is 14 inch4. Solved problem-case-2-Mohr’s circle of inertia. Oriented datums to let x-direction as a horizontal axis.Solved problem-case-2-Mohr's circle of inertia using general expression.The directions of U and V for the normal view.Value of Angle 2φp2 for the Solved problem-case-2-Mohr's circle of inertia.Solved problem-case-2-Mohr's circle of inertia-direction of principal axes U&V.Solved problem-case-2-Mohr's circle of inertia-drawing the circle. Solved problem-case-2-Mohr's circle of inertia.
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