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The parallel axis theorem, also known as Huygens–Steiner theorem, or just as Steiner's theorem, named after Christiaan Huygens and Jakob Steiner, can be used to determine the moment of inertia or the second moment of area of a rigid body about any axis, given the body's moment of inertia about a parallel axis through the object's center of ...
The parallel axis theorem relates the moment of inertia of a shape about an arbitrary axis to its moment of inertia about a parallel centroidal axis. This theorem is particularly useful because if we know the centroidal moment of inertia of a shape, we can calculate its moment of inertia about any parallel axis by adding an appropriate ...
Learn how to find the moment of inertia of an object about any axis parallel to the axis passing through the centroid. See the formula, derivation and solved examples for mass moment of inertia and area moment of inertia.
Learn how to calculate the moment of inertia of an object about an axis parallel to its center of mass. The web page explains the formula, gives examples and provides a link to related concepts.
Jul 28, 2023 · Learn how to calculate the moment of inertia of a rigid body about any parallel axis using the parallel axis theorem. See the formula, derivation, and examples for different shapes such as rod, ring, disc, and sphere.
Learn how to calculate moments of inertia and use the parallel axis theorem to find the moment of inertia of a composite object. This textbook is free and open source, and covers topics in physics for college students.
Learn how to calculate the moment of inertia of a cylinder about different axes using the parallel axis theorem and the perpendicular axis theorem. See the derivations, formulas and examples for solid and hollow cylinders.
