5 prs Zocct 500/F DRAW FREE BODY DIAGRara CALCULATE SHREACTIONS DRAN SHEAR MEMENT - DIAGRAMS A...
(i) Draw the free body diagrams
(ii) Draw the shear and moment diagrams
(iii) Use the virtual force method to determine the horizontal
displacement at B.
Given: I1 = 200in^4, I2 = 800 in^4 and E=29000ksi
1.2 x1 0.5 6.9 0.5 ← 3.1 ← A 25.45 0.625 12.95 0.625
Draw the free body diagrams for the figures
Draw the free body Diagram for the figures below. 20 1. 65° 1.7 m 12 m S 250 m
Draw Shear and Bending Moment diagrams for the following beam.
You MUST show free body diagrams for each required cut and solve
equations for V and M.
10 kN 3 kN/m
Create a free body diagram and draw the moment and shear
diagrams. Pin at C
AL 0.5 KN INT ! 05m 1kN 1 kW-m - 0.be LM
For the frames below: (i) draw the free body diagrams (ii)
draw the shear and moment diagrams (iii) use the virtual force
method to determine the horizontal displacement at joint B.
Assume I1 = 200, I2 = 800, E = 29000 ksi
1.2 kip/ft 20 ft 8.4 1.6 16.27 22.13 75.86 30 32 ft kip ft3 UR -in
Note: Draw Free-body diagrams for all problems Q.1) Two flanged shafts subjected to a torque To 18 kN-m are connected by four 30-mm bolts as shown in figure below. The diameter of the bolt circle is da- 200 mm. Calculate the shear stress in the bolts. To To
Solve: Draw the free body diagram, solve the reaction, shear and bending moment diagrams. Show all of the work 150 Lb/ft 30,000 ft Lb 10,000 ft Lb 7 ft A 8ft 9 ft
Draw free body diagrams for clothes inside of a washing machine when: A. They are at the bottom of the washer B. They are at the top of the washer C. They are on the right side of the washer
Problems 1.-5. Draw complete shear and moment diagrams resulting from the loads indicated for the beams shown. Show ordinates at key points and indicate the magnitude of shear and moment at these points. Calculate the maximum bending stress due to the applied loads. Beam sections are 1) L6x6x1, 2) C10x30, 3) W21x73, 4) W18x50 bent about its weak axis, 5) 8 in. extra strong pipe. Ignore the beam weight. 400 lb/ft 15 kips 15 kips (2) 13'-0" 5'-0" 6'-0" |...
For the beam shown in the figure below a. Draw the shear and moment diagrams for this beam b. Calculate the maximum bending stress, maximum axial stress, and maximum shear stress acting on the beam cross section c. Sketch the distributions of shear stresses and bending stresses acting on the beam cross section at the locations where these stresses are maximum.