A compound shaft supports several pulleys. Segments (1) and (4) are solid 21-mm-diameter steel [G = 61 GPa] shafts. Segments (2) and (3) are solid 50-mm-diameter steel shafts. The bearings shown allow the shaft to turn freely. Assume L₁=745 mm, L₂=400 mm, L₃=725 mm, L₄=515 mm, T_A=130 N-m, T_B=2015 N-m, T_C=1540 N-m, T_D=580 N-m, T_E=235 N-m.
(a) Determine the maximum absolute value of the shear stress in the compound shaft.
(b) Determine the rotation angle of pulley D with respect to pulley B.
(c) Determine the rotation angle of pulley E with respect to pulley A.

Transcribed Image Text:

Chapter 6, Reserve Problem 071 A compound shaft supports several pulleys. Segments (1) and (4) are solid 21-mm-diameter steel [G = 61 GPa] shafts. Segments (2) and (3) are solid 50-mm-diameter steel shafts. The bearings shown allow the shaft to turn freely. Assume Li=745 mm, L2=400 mm, L3=725 mm, L4=515 mm, TA=130 N-m, Tg=2015 N-m, Tc=1540 N-m, Tp=580 N-m, TE=235 N-m. (a) Determine the maximum absolute value of the shear stress Tmax in the compound shaft. (b) Determine the rotation angle PDIR of pulley D with respect to pulley B. (c) Determine the rotation angle PEIA of pulley E with respect to pulley A. TA Tp (1) TE (2) (3) (4) Answers: MРа. (a) Tmax = (b) PDIB = (c) PEIA =