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In above assembly, bronze rod (1) and aluminum rod (2) support rigid bar ABC. A concentrated load P = 90 kN is applied to the free end of aluminum rod (3). For this structure, a = 800 mm and b = 500 mm. For bronze rod (1), L1 = 1.8 m, d1= 15 mm, and E1 =
QUESTION 22 The below rod, in figure (io) below, has a diameter of 2s mm. The rod is free at C and fised firmly at its second end, tis ubjecte o concentrated load of 18o N applied at o.6 m away from C along a vertical direction that is pointing downward. The shaft has a shear modulusof 7o GPa. (CLO4) (3 points) 1.35 m 8 45 m 45 m 2 m Figure (10) The angle of twist in radians of...
The assembly, shown below in Figure Q5, consists of three titanium rods and a rigid bar AC, which is horizontal prior to application of the load. The cross-sectional area of each rod is given in Figure Q5. A vertical force, P = 20 kN, is applied to the ring, F, as shown. Given: Eti = 350 GPa. Determine the vertical displacement of point F.