7th Edition Chapter 3 Solutions | Mechanics Of Materials

Setting: Engineering Lab, Coast Guard Inspection Yard. 2:00 AM.

Dr. Vance tossed him a well-worn copy of Mechanics of Materials, 7th Edition . "Open to Chapter 3," she said. "We don't have time for a finite element simulation. We need to do this by hand, using the fundamental torsion formulas." Mechanics Of Materials 7th Edition Chapter 3 Solutions

Leo flipped to the chapter. The title read: . Part 2: The Equation of Survival "The shaft is solid steel, 75 mm in diameter," Leo read from the inspection sheet. "The engine applies 4 kN·m of torque. How do we find the maximum shear stress?" Setting: Engineering Lab, Coast Guard Inspection Yard

"Exactly," said Dr. Vance. "The Resilient was overloaded by cyclic torque. Now go re-design the shaft diameter using Equation 3-9: (J = \pi d^4/32). Solve for (d) using (\tau_allow = 60/2.5 = 24) MPa." Vance tossed him a well-worn copy of Mechanics

"2.4 degrees of twist over 2.5 meters is acceptable," Leo said.

Leo solved: [ d = \sqrt[3]\frac16T\pi \tau_allow ] [ d = \sqrt[3]\frac16(4000)\pi (24\times10^6) = 0.094 \text m \approx 94 \text mm ]