Mechanics of MaterialsFor undergraduate Mechanics of Materials courses in Mechanical, Civil, and Aerospace Engineering departments. Hibbeler continues to be the most student friendly text on the market. The new edition offers a new four-color, photorealistic art program to help students better visualize difficult concepts. Hibbeler continues to have over 1/3 more examples than its competitors, Procedures for Analysis problem solving sections, and a simple, concise writing style. Each chapter is organized into well-defined units that offer instructors great flexibility in course emphasis. Hibbeler combines a fluid writing style, cohesive organization, outstanding illustrations, and dynamic use of exercises, examples, and free body diagrams to help prepare tomorrow's engineers. |
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... radius c ; and outer radius co , then from Eq . 5-8 we can determine its polar moment of inertia by subtracting J for a shaft of radius c , from that determined for a shaft of radius co . The result is J = π 2 ( ct - ct ) ( 5-9 ) Like ...
... radius of 2.8 mm . Determine the maximum shear stress developed in the shaft . C D 50 mm 5-114 . The built - up shaft is to be designed to rotate at 720 rpm while transmitting 30 kW of power . Is this possi- ble ? The allowable shear ...
... radius . If the cylinder is to have a thickness of 0.5 in . , what is the required thickness of the hemispheres ? Take v = 0.3 . 10-59 . The thin - walled cylindrical pressure vessel of inner radius r and thickness t is subjected to an ...