(20 Points Total) 1) Consider the given structure a) Draw the complete free-body diagram of the...
a. Draw a complete free-body diagram for the beam shown in Fig.
1. Must show and label x-y coordinate system, support reactions,
loads, and dimensions
b. Derive formulas for all support reactions using conditions of
equilibrium. Must show all work.
c. Using the student variables shown below, calculate beam
support reactions and draw shear and bending moment diagrams. To
receive full credit, support reactions and loads must be shown on a
free-body diagram. Each shear and bending moment diagram must...
Draw the free-body diagram of the member ABC, which is supported by a pin at A and a horizontal short link BD. Neglect the weight of ABC and determine support reactions at A and B. 0.5 m 30° 50 kg
Question 3 Draw the Free Body Diagram for the structure below. 500 lb 3'-0" 5 - 0" 3'-0" 800 lb 60° Roller ATA Pin B support OOO 3 Upload Choose a File
Sketch structure analytical model and draw free body diagram
also please
Problem 3: Use the method of virtual work and determine the vertical displacement of joint B of the truss. Point C is roller support and point A is pin support. Each steel member has a cross- sectional area A 0.465 in.2E-29000 ksi. (Hint: you may just do the structural analysis once and do the proportion for the internal force). (25 points) P-40 kips 11/26/2018 Page 2
any
help?
Question 1 Draw the Free Body Diagram of the structure below. Cable B 60° Wall 30° W Bar Pin Upload Choose a File Question 2
1) Check stability and determinacy of the structure
2) draw free body diagram
3) determine reactions
4) draw shear diagram
- correct values
- correct shape
- location of the maximum moment on member BC
5) draw moment diagram
- correct values
- correct shape
- location of the maximum moment on member BC
6) draw deformation shape
Given: The following fixed supported bracket. Required: Reactions at O a) Draw a free-body diagram. (3) b) Determine the reactions at O. (14) Z F= 120 lb 1 ft B 4 ft 2 ft C A X 4 ft
Given: The following fixed supported bracket. Required: Reactions at O a) Draw a free-body diagram. (3) b) Determine the reactions at O. (14) Z F= 120 lb 1 ft B 4 ft 2 ft C A X 4 ft
a. Draw a free-body diagram for the beam shown above and derive
expressions for the support reactions at A and B
b. Draw internal force (shear and bending moment) diagrams.
c. If a = 10 ft and M0 = 200 ft-lb, use the dimensions of the
beam cross-section, provided on the previous page, to compute the
maximum flexural and shear stresses on the beam cross-section.
d. If the allowable bending stress is 925 psi and the allowable
shear stress is...
draw the free body diagram and determine the reactions
Draw a free-body diagram for each of the presented structures.
No complete calculation is required!
20 lb 800 lb E 400 lb 6 ft 6 ft O TORODIM OU 6 ft 1.5 in. 2 in. 1 in. 20 lb