P1.31 The bell crank shown in Figure P1.31 is in equilibrium for the forces acting in rods (1) and (2). The crank is supported by a 10 mm diameter pin at B that acts in single shear. The thickness of the crank is 5 mm. Assume that a = 65 mm, b = 150 mm, F₁ = 1,100 N, and 0 = 50°. Determine (a) the average shear stress in pin B. (b) the average bearing stress in the bell crank at B. R 0 (1) a (1) Bell crank- A C B (2) b alvoM bota F₂

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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P1.31 The bell crank shown in Figure P1.31 is in equilibrium
for the forces acting in rods (1) and (2). The crank is supported by
a 10 mm diameter pin at B that acts in single shear. The thickness
of the crank is 5 mm. Assume that a = 65 mm, b = 150 mm, F1₁
1,100 N, and 0 = 50°. Determine
=
(a) the average shear stress in pin B.
(b) the average bearing stress in the bell crank at B.
no
F
Ꮎ
(1) a
Bell crank-
A
C
B
(2)
b
10 802
zivoM
F₂
Transcribed Image Text:P1.31 The bell crank shown in Figure P1.31 is in equilibrium for the forces acting in rods (1) and (2). The crank is supported by a 10 mm diameter pin at B that acts in single shear. The thickness of the crank is 5 mm. Assume that a = 65 mm, b = 150 mm, F1₁ 1,100 N, and 0 = 50°. Determine = (a) the average shear stress in pin B. (b) the average bearing stress in the bell crank at B. no F Ꮎ (1) a Bell crank- A C B (2) b 10 802 zivoM F₂
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