4.) Cable DE holds a simply-supported beam with an internal hinge at B. Find the support...
2. A uniform bar weighing 200 (lb) is supported by a cable and a hinge as shown below. (a) Determine the tension in the cable if the angle between the bar and the cable, a, is α=30°. Find the angle, α, and the magnitude of the smallest possible tension in the cable that maintains support of the bar. 多 2.5 ft 2.5 ft TIITmm
9. A beam ABC is simply supported on a rigid support at end A and on another beam DCE at end C as shown in Fig. 9. Beam DCE is also simply supported. Calculate the deflections at B and C for the loading shown. El is constant throughout. * 1/4 - W * 1/4 bod B L/2 L/2 Fig. 9
5) (20 pts) For the simply supported beam shown, find the appropriate W-section to support the loads. L- 15 ft, w 400 lb/ft, P 4000 lb, Ơallow = 36,000 lb/in2 L/2 L/2 wL/2 wL/2 Beam size- 5) (20 pts) For the simply supported beam shown, find the appropriate W-section to support the loads. L- 15 ft, w 400 lb/ft, P 4000 lb, Ơallow = 36,000 lb/in2 L/2 L/2 wL/2 wL/2 Beam size-
m2=950, w2=36, a=9, b=22. c. For the simply supported orthogonal frame, de- termine the support reactions. Then draw the internal force diagrams (N, V, and M) and in cluding all significant values. w2 M2 A.
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b-solve for the reaction forces at support A and D Ax= (5 point) Ay Dy = (5 points) (5 point) Am = (5 points) 50K 3K/ft B 10 ft 10 ft 10 ft
w2= 12 b=6 c=13 a. For the simply supported orthogonal frame, de- termine the support reactions. Then draw the internal force diagrams (N, V, and M) and in- cluding all significant values w2
Statics 5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b- solve for the reaction forces at support A and D (5 point) Ay (5 points) A- (5 point) Am (5 points) D- SOK 3K/A B 10.17 10 ft 10 ft *
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b-solve for the reaction forces at support A and D Ax (5 point) Ay (5 point) Am (5 points) D- (5 points) SOK 3K/ft # B с 10 10 ft 10 ft B ot - inted CORE IS CF-33 A1 A2
16.6a) A simply supported beam is to span 15 ft. It will support a uniformly distributed load of 2 kips/ft over the full span and a concentrated load of 60 kips at mid-span. What is the required plastic section modulus Zx? (Include self-weight) 16.6b) A simply supported beam is to span 15 ft. It will support a uniformly distributed load of 2 kips/ft over the full span and a concentrated load of 60 kips at mid-span. Deflection is not to...
vibration lab can you please help me the experiment vibration of simply supported beam shown in "Figure-5" answer the following: a. Describe what will happen to amplitude y() of the beam when you start the motor to run and you increase the motor angular speed ω . Make graph for the relation. b. How you think it is possible to reduce the vibration amplitude? Motor Base Hinge Hinge Figure S: Forced vibration of simply supported beam the experiment vibration of...