The rigid bar is pinned at A and supported by two aluminum rods, each having a diameter of 1 in., a modulus of elasticity Eal = 10(103) ksi, and yield stress of (σy)al= 40 ksi. If the bar is initially vertical, determine the displacement of the end B when the force of 20 kip is applied.
The rigid bar is pinned at A and supported by two aluminum rods,each having a...
The rigid bar in (Figure 1) is pinned at A and supported by two aluminum rods, each having a diameter of 1.2 in. and a modulus of elasticity Eal = 10(103) ksi. Part A If the bar is initially vertical, determine the displacement of the end B when the force of 2 kip is applied.
The rigid bar is pinned at A and supported by two aluminum rods, each having a diameter of 1 in. and a modulus of elasticity Eal = 10(103) ksi. If the bar is initially vertical, determine the force in each rod when the 3.4 kip load is applied.
Problem 4.49 The rigid bar in (Figure 1) is pinned at A and supported by two aluminum rods, each having a diameter of 1.1 in., a modulus of elasticity Eal 10(103) ksi, and yield stress of (oy),1-38 ksi. Part A If the bar is initially vertical, determine the displacement of the end B when the force of 20 kip is applied Express your answer to three significant figures and include appropriate units. 6 0063 Figure < 1011 20 kip Submit...
The rigid bar AB is pinned at A and supported by two aluminum rods (E = 10 x 103ksi) with diameter d = 1.2 in and the length shown for each on the figure. If the rigid bar is initially vertical, determine (a) the reaction exerted at A and (b) the average normal stress in each rod when the 40-kip force is applied. 40 kip B 2 ft d=12 in ELIF 2 ft- (a) reaction at A 3 ft d=1.2...
The rigid bar AB is pinned at A and supported by two aluminum rods (E 10 x 103ksi) with diameter d = 1.2 in and the length shown for each on the figure. If the rigid bar is initially vertical, determine (a) the reaction exerted at A and (b) the average normal stress in each rod when the 40-kip force is applied. 40 kip B 2 ft d= 12 in E O 2 ft- (a) reaction at A 3 ft...
The rigid bar AB is pinned at A and supported by two aluminum rods (E 10 x 103ksi) with diameter d = 1.2 in and the length shown for each on the figure. If the rigid bar is initially vertical, determine (a) the reaction exerted at A and (b) the average normal stress in each rod when the 40-kip force is applied. 40 kip B 2 ft d= 12 in E O 2 ft- (a) reaction at A 3 ft...
AB pinned at A and supported by two aluminum rods (E = 10 x 103 ksi) with diameter d = 1.2 in If the rigid bar is initially vertical, determine (a) the reaction exerted at A and (b) the average normal stress in each rod when the 40-kip force is applied. 40 kip B 2 ft d=12 in E 2 ft at A 4 ft d=12 in OCD 4 ft 3 ft OEF =
Just wondering for this problem when substituting, how would I enter the 4 equations and 4 unknowns in a matrix in a TI-89 calculator? Substituting for all of this is tedious and I was wondering if I have it set up write to put in a matrix and how to do it. Here’s my work. E-112. The rigid bar is pinned at A and supported by two aluminum rods, each having a diameter of 1 in., a modulus of elasticity...
Problem 1 (20 points) The rigid bar AB is pinned at A and supported by two aluminum rods (E = 10 x 103ksi) with diameter d = 1.2 in and the length shown for each on the figure. If the rigid bar is initially vertical, determine (a) the reaction exerted at A and (b) the average normal stress in each rod when the 40-kip force is applied. 40 kip B 2 ft d = 12 in ELIF 2 ft- (a)...
Problem 1 (20 points) The rigid bar AB is pinned at A and supported by two aluminum rods (E = 10 x 103ksi) with diameter d = 1.2 in and the length shown for each on the figure. If the rigid bar is initially vertical, determine (a) the reaction exerted at A and (b) the average normal stress in each rod when the 40-kip force is applied. 40 kip 2 ft d = 12 in La 2 ft- (a) reaction...