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Use the figure to the right to answer the following questions. There is a pin support...
2. (40 points) For the loaded determinate truss with pin reaction at support E and roller...
2. (40 points) For the loaded determinate truss with pin reaction at support E and roller reaction at support A: (30 pts) fine the forces in members , DC, DG, and HG using the method of sections through section aa. Indicate whether these forces are in compression (C) or tension (T). (10 pts) list any zero-force members that you can determine. 30 k 30k 30k 15 k 12 ft 4 at 16 ft = 64 ft -
Problem No. 2 (100 points) For the Baltimore bridge truss shown below answer the following questions:...
Problem No. 2 (100 points) For the Baltimore bridge truss shown below answer the following questions: 1) Calculate Reaction Forces (FBD is already drawn assuming a pin support at A and a roller support at I) (10) 2) What is status of the Truss (determinate or indeterminate)? (10) 3) Obtain ALL the Zero force member (30) 4) Using method of Joints, find force in member PF and PG specify if these forces are in Tension or Compression? (25) 5) Using...
Use the figure to thei ure to the right to answer the following questions. The mass...
Use the figure to thei ure to the right to answer the following questions. The mass of the crate is 100 kg (15 points) a. Draw the free body diagram for the figure. b. Write each force in cartesian coordinates. Include the weight. Use equilibrium to find AB, AC, and AD. c.
Q1. Consider a truss shown in Fig.1. Joint A sits on a pin support and I...
Q1. Consider a truss shown in Fig.1. Joint A sits on a pin support and I on a roller support. () Determine the forces on members CD, FG and Hl, using two different methods (a) and (b). Identify the forces as Tension or Compression. (ii) Determine the member that carries maximum tension. (a) method of Joints, and (b) method of Sections 200 kN 200 kN 200 kN 200 kN 200 kN 4 m 3 m -5 m Fig.1 Truss
Problem 4. (25%) The truss shown in the figure is supported by a pin at H...
Problem 4. (25%) The truss shown in the figure is supported by a pin at H and a roller at A. Use method of sections to determine the force in members DF, FE and EG of the truss. State if they are in tension or compression. You must include a FBD. 500 16 200 lb 400 16 D 500 16 B F 200 16 2 ft 4 in. 1 6 ft E G Н. -8f-48f-48f-4a8ft
Problem 4. (25%) The truss shown in the figure is supported by a pin at H...
Problem 4. (25%) The truss shown in the figure is supported by a pin at H and a roller at A. Use method of sections to determine the force in members DF, FE and EG of the truss. State if they are in tension or compression. You must include a FBD. 500 16 200 16 400 16 D 500 16 B F 2 ft 4 in. 200 16 6 ft E G Н. 6-8 -8 ft-t8f-8 ft-7-8 ft-
In the following loaded truss, which is supported by pin at A and roller at B,...
In the following loaded truss, which is supported by pin at A and roller at B, as shown a. Find Zero force Members by inspection (Negative marks for wrong answer) b. Find Support Reactions at A and B c. Find forces in Members CD and CE by Method of Section d. Find forces in Members EF and CH by Method of Joint (3 Points) (6 Points) (8 Points) (8 Points) 8U)N 800 N 800N D600 N 60 11.547 m 30°...
Force method for composite structure: Determine the degree of static indeterminacy for the structure and use...
Force method for composite structure: Determine the
degree of static indeterminacy for the structure and use
the force method to find the forces in the steel
rods. Draw the shear and bending moments diagram
for the wood flexural member.
A= roller support C= pin support
Force Method for Composite Structure. Determine the 'Degree of Static Indeterminacy (SI)' for the structure shown in Figure 1 and use the force method to find the forces in the steel rods. Also, draw the...
The structure below is supported by a pin at A and a roller at E Determine the force in each memb...
The structure below is supported by a pin at A and a roller at E Determine the force in each member of the truss using the Method of Joints H meters 2 FE m AH m GF m HG m Joint Loadings, kN ent length, m Height, m HG GF FE 1.5 2 Draw FBD of truss system to determine reaction forces Assume all forces in members are tensile. If answer is negative, force is compressive. s in x direction...
5. For the truss shown below, what are the reaction supports at the pin support A,...
5. For the truss shown below, what are the reaction supports at the pin support A, and the roller support D? Determine the forces in all of the members and state whether they are in compression or tension or zero-force members. (20 pts.) 3 ft 3 ft 3 ft F E 8 kip 5 ft B CI 5 kip
2. (40 points) For the loaded determinate truss with pin reaction at support E and roller reaction at support A: (30 pts) fine the forces in members , DC, DG, and HG using the method of sections through section aa. Indicate whether these forces are in compression (C) or tension (T). (10 pts) list any zero-force members that you can determine. 30 k 30k 30k 15 k 12 ft 4 at 16 ft = 64 ft -
Problem No. 2 (100 points) For the Baltimore bridge truss shown below answer the following questions: 1) Calculate Reaction Forces (FBD is already drawn assuming a pin support at A and a roller support at I) (10) 2) What is status of the Truss (determinate or indeterminate)? (10) 3) Obtain ALL the Zero force member (30) 4) Using method of Joints, find force in member PF and PG specify if these forces are in Tension or Compression? (25) 5) Using...
Use the figure to thei ure to the right to answer the following questions. The mass of the crate is 100 kg (15 points) a. Draw the free body diagram for the figure. b. Write each force in cartesian coordinates. Include the weight. Use equilibrium to find AB, AC, and AD. c.
Q1. Consider a truss shown in Fig.1. Joint A sits on a pin support and I on a roller support. () Determine the forces on members CD, FG and Hl, using two different methods (a) and (b). Identify the forces as Tension or Compression. (ii) Determine the member that carries maximum tension. (a) method of Joints, and (b) method of Sections 200 kN 200 kN 200 kN 200 kN 200 kN 4 m 3 m -5 m Fig.1 Truss
Problem 4. (25%) The truss shown in the figure is supported by a pin at H and a roller at A. Use method of sections to determine the force in members DF, FE and EG of the truss. State if they are in tension or compression. You must include a FBD. 500 16 200 lb 400 16 D 500 16 B F 200 16 2 ft 4 in. 1 6 ft E G Н. -8f-48f-48f-4a8ft
Problem 4. (25%) The truss shown in the figure is supported by a pin at H and a roller at A. Use method of sections to determine the force in members DF, FE and EG of the truss. State if they are in tension or compression. You must include a FBD. 500 16 200 16 400 16 D 500 16 B F 2 ft 4 in. 200 16 6 ft E G Н. 6-8 -8 ft-t8f-8 ft-7-8 ft-
In the following loaded truss, which is supported by pin at A and roller at B, as shown a. Find Zero force Members by inspection (Negative marks for wrong answer) b. Find Support Reactions at A and B c. Find forces in Members CD and CE by Method of Section d. Find forces in Members EF and CH by Method of Joint (3 Points) (6 Points) (8 Points) (8 Points) 8U)N 800 N 800N D600 N 60 11.547 m 30°...
Force method for composite structure: Determine the
degree of static indeterminacy for the structure and use
the force method to find the forces in the steel
rods. Draw the shear and bending moments diagram
for the wood flexural member.
A= roller support C= pin support
Force Method for Composite Structure. Determine the 'Degree of Static Indeterminacy (SI)' for the structure shown in Figure 1 and use the force method to find the forces in the steel rods. Also, draw the...
The structure below is supported by a pin at A and a roller at E Determine the force in each member of the truss using the Method of Joints H meters 2 FE m AH m GF m HG m Joint Loadings, kN ent length, m Height, m HG GF FE 1.5 2 Draw FBD of truss system to determine reaction forces Assume all forces in members are tensile. If answer is negative, force is compressive. s in x direction...
5. For the truss shown below, what are the reaction supports at the pin support A, and the roller support D? Determine the forces in all of the members and state whether they are in compression or tension or zero-force members. (20 pts.) 3 ft 3 ft 3 ft F E 8 kip 5 ft B CI 5 kip
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