For a solid circular shaft of radius R under torque T, what is the maximum shear stress formula (in terms of T and R)?

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Study for the NANTeL Mechanical Engineering Test. Explore detailed multiple choice questions, each with insightful hints and explanations. Gear up for success!

Multiple Choice

For a solid circular shaft of radius R under torque T, what is the maximum shear stress formula (in terms of T and R)?

Explanation:
In torsion of a solid circular shaft, the shear stress at a radius r is tau(r) = T r / J, where J is the polar moment of inertia. For a solid circle, J = π R^4 / 2. The maximum shear stress occurs at the outer surface (r = R), so tau_max = T R / J = T R / (π R^4 / 2) = 2T / (π R^3). This matches the given formula for the maximum shear stress in terms of T and R. Other forms miss either substituting J for a solid shaft or use an incorrect coefficient.

In torsion of a solid circular shaft, the shear stress at a radius r is tau(r) = T r / J, where J is the polar moment of inertia. For a solid circle, J = π R^4 / 2. The maximum shear stress occurs at the outer surface (r = R), so tau_max = T R / J = T R / (π R^4 / 2) = 2T / (π R^3). This matches the given formula for the maximum shear stress in terms of T and R. Other forms miss either substituting J for a solid shaft or use an incorrect coefficient.

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