3. (8 points) Determine the reactions at fixed end A and pinned support B. M =...
1-19. Determine the moments at B and D, then draw the B and D moment diagram. Assume A and Care pinned and are fixed connected. El is constant. 40 kN 3 m 4.5 m3 m 3.6 m Prob. 11-19
1-19. Determine the moments at B and D, then draw the B and D moment diagram. Assume A and Care pinned and are fixed connected. El is constant. 40 kN 3 m 4.5 m3 m 3.6 m Prob. 11-19
Problem #1: Using the moment distribution method, determine the internal end moments, support reactions and plot the shear and moment diagrams for the beam shown. Label all points including maximum and minimum on the shear and moment diagrams. El is constant pok 3.5 k/ft B с 12 ft 12 ft 12 ft +
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)...
(Virtual Work Indeterminate) Problem 6. Virtual Work Method. Determine the reaction at A. The support at A is a roller and C is fixed. El is constant. (16 points) RA с 10 ft. 5 ft. 4 kip B
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 = 1 2 in E 2 ft-...
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 = 1 2 in E 2 ft-...
Problem 1 This L-beam is in Equilibrium. Determine the reactions at the fixed-end support a) FBD b) Solve for the reactions (YOU SHOULD HAVE 3 and only 3!) |2ft ----2ft - 200 lb 160580 300 Sin 30° 2 ft 150 165 150 lb 1 2 ft 300 lb 3097 2 ft 10 50'
(Virtual Work Indeterminate) Problem 6. Virtual Work Method. Determine the reaction at A. The support at A is a roller and C is fixed El is constant. (16 points) RA С 10 ft. 5 ft. 4 kip B What is the reaction at 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...
3. FRAME Determine the support reactions at A, B, and C. There is a fixed support at A and a rocker at B. Assume the vertical link at Cacts like a rocker support. 15 kN 30 kNm ALO 6m2 m2 m2 m