Draw the Free Body Diagram of the beam. Determine the reactions at the supports A and...
4. (a) Draw the free-body diagram of the beam. (b) Determine the reactions at the supports. 100 lb 400 lb 900 ft-lb 4 ft 4 ft 3 ft
Problems S.13 (a) Draw the free-body diagram of the beam. (b) Determine the reactions at the supports. A 6 m 40 kN В 8 m 12 m Problem 5.13
draw the free body diagram and determine the reactions
For the truss shown below, 1. Draw a free body diagram and determine the reactions at supports (D and A) 2. Determine the force in all members of the truss and specify if they are in tension or compression. 3. Do your homework assignment by your own in a neat way. E D 2 m A B - 2 m 2 m 400 N
beam problem QUESTION 6: Draw the free body diagram of the beam shown below and determine the reactions and formulate the shear-force and bending moment equations for the beam. Sketch the shear and moment diagrams: Type your answers and intermediate calculations on the screen on the blackboard 400 N 100 N/m A 4 m 4 m
2. (a) Draw a free body diagram for member ABC shown below. (b) Determine the reactions at the supports A and C. P = 10 kN and a = 1 m. Begin your solution on this page 30
Q3. a. Determine the reactions at supports A and B for the beam as shown in figure below. (Assume support A is a roller and support B hinged) 15.01 22 N/m 15 N 50 Nm B А 6.5 m 3.5 m b. Draw the free body diagram of each of the blocks given in the figure below. [2.5)
1) Draw a free body diagram of the figures and determine the reactions for each of these. Cables can still only hold axial loads 15 in B 10 TEOTTI 5 kips 30° 2 kips
4. Use singularity function method to solve the problem. The cantilever beam has modulus of elasticity E and bending moment of inertia I. (1) Draw the free body diagram of the beam (2pts). (2) Find the reactions at the supports (3pts). (3) Find the loading (intensity of load) of the beam in singularity function form (4 pts). (4) What is the vertical shear function like? (4pts) (5) Houw much is the moment? (4pts) (6) Express the elastic curve of the...
please show Free body diagram steps/ explain thank you ! 3. passes through a smooth slot in member AB. (Hint: Determine the normal force at B first) Determine the reactions at the supports A, C, and D. The pin at B, attached to member BCD, F-200 Dy 4 h 2 f ft)-200 o Ne= 200 200 h Tey TNe 3ft /NA An/L 4 3. passes through a smooth slot in member AB. (Hint: Determine the normal force at B first)...