A 60-inch length of 2-inch OD x 1/8-inch wall 2014-T4 aluminum tube is supported by pinned supports at A and B as shown below. A 48-inch long pipe wrench is placed over the end of the tube at C as shown in the right view. (a) If a 200-lb person puts their full weight F on the end of the wrench handle will the tube material reach its yield point in shear? Use the maximum shear stress theory and show all calculations. (b) Where along the length of the tube, and in the tube cross-section, will the point of maximum shear stress be located? Be specific.
A 60-inch length of 2-inch OD x 1/8-inch wall 2014-T4 aluminum tube is supported by pinned supports at A and B as shown below. A 48-inch long pipe wrench is placed over the end of the tube at C as shown in the right view. (a) If a 200-lb person puts their full weight F on the end of the wrench handle will the tube material reach its yield point in shear? Use the maximum shear stress theory and show all calculations. (b) Where along the length of the tube, and in the tube cross-section, will the point of maximum shear stress be located? Be specific.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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A 60-inch length of 2-inch OD x 1/8-inch wall 2014-T4 aluminum tube is supported by pinned supports at A and B as shown below. A 48-inch long pipe wrench is placed over the end of the tube at C as shown in the right view.
(a) If a 200-lb person puts their full weight F on the end of the wrench handle will the tube material reach its yield point in shear? Use the maximum shear stress theory and show all calculations. (b) Where along the length of the tube, and in the tube cross-section, will the point of maximum shear stress be located? Be specific.
Transcribed Image Text:F
A
Ø2.00
-48-
60-
48-
F
PIPE
WRENCH
Ø2.00
RIGHT VIEW
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