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QUESTION 2 ( 6 marks) a) Complete the free body...
ATTEMPT ALL QUESTIONS (All solutions must include free body diagrams) 1000 lb SO Question 1 Determine...
ATTEMPT ALL QUESTIONS (All solutions must include free body diagrams) 1000 lb SO Question 1 Determine the force in each member of the truss and state if the members are in tension or compression. (Draw the Free Body Diagram (FBD) of the structure and joints for solving internal forces) (35 points) 10 ft ---10 -- --10 ft-------10ft-- 600 lb
For the two frames given below Compute the Support Reactions Draw the Free Body Diagrams for...
For the two frames given below Compute the Support Reactions Draw the Free Body Diagrams for all members, and joints with concentrated load or moment Draw the Bending Moment Diagram, Shear Force Diagram, and Axial Force Diagram using the sign conventions and labeling scheme taught in the class Draw the Qualitative Deflected Shape, clearly showing the Inflection Points, if any. 1. (50 points) 45 k Need FBD 3 k/ft 15 ft 2. (50 points) 15 kN/m F G 65 kN...
It's a problem of Mechanics of Solids. Kindly show all the works. QUESTION 1 (TEST 2)...
It's a problem of Mechanics of Solids. Kindly show all the
works.
QUESTION 1 (TEST 2) (a) For the beams shown in Figure Q1(a) to Q10), select the beam which is under pure bending. Explain what is pure bending. No calculation is required. (2 marks) P(N) P(N) PIN (Nm) P (N) Figure Q1(a) Figure Q1(b) Figure Q1(c) (6) For the beams shown in Figure Q1(d) to Q1(f), select the beam which you expect to have the contra- flexure point. Explain...
beam problem QUESTION 6: Draw the free body diagram of the beam shown below and determine...
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
QUESTION 2 |15 MARKSI (a) Figure 2 shows a collar with a mass, m of 25...
QUESTION 2 |15 MARKSI (a) Figure 2 shows a collar with a mass, m of 25 kg and coefficient of kinetic friction, pk of 0.3. The attached spring has an unstretched length 7=0.15 m and a stiffness k = 55 Nm. (i) Draw the free-body diagram (FBD) of the system when the collar is at point A with applied force, F = 250 N acting at angle 6 = 30° as shown in Figure 2. [4 Marks] (ii) Find the...
please help solve for what is asked in orobkems A-H and the free body diagrams as...
please help solve for what is asked in orobkems A-H and the
free body diagrams as well. Will upvote if correct
A
B
C
D
E
F
G
H
B 4 m 6 m 3 m 12 m 2 m F=80 N Determine the projected component of the force acting along the axis AB of the pipe. 60° A The 30kg pipe is supported at A by a system of five cords. Determine the force in each cord for equilibrium....
QUESTION 2 [30 Marks) The framed structure shown in Figure 2 has simple supports (i.e. is...
QUESTION 2 [30 Marks) The framed structure shown in Figure 2 has simple supports (i.e. is free to rotate) at joints A and G. Members AC and GE are vertical, while CE and EH are horizontal. There is an internal moment release at joint C. A uniformly distributed load of 5 kN/m is applied between D and E, and another uniformly distributed load of 4 kN/m is applied between F and G as shown. There is also a horizontal point...
OUESTION 2 The solid cylindrical member in Figure 3 is under a point load of P...
OUESTION 2 The solid cylindrical member in Figure 3 is under a point load of P at point C. If the beam has a radius ofr 50 mm, length L = 4 m, and load P 5 kN and E= 200 GPa (a) Draw the free body, shear force, bending moment and torque diagrams for both sections of the member (4 Marks) (b) What is the maximum bending stress induced in the member? (3 Marks) (c) What is the maximum...
Only question 3-3, draw a FBD 3-1* to 3-4 Sketch a free-body diagram of each element...
Only question 3-3, draw a
FBD
3-1* to 3-4 Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of each force using an algebraic or vector method, as specified. 100 lbf 100 lbf 12 in 10 in 6 in 12 in 10 in 10 in 10 in- Problem 3-1 Problem 3-2 F-400 N 30° F=0.8 KN -0.9 m IE Problem 3-3 Problem 3-4
Note: Draw Free-body diagrams for all problems Q.1) Two flanged shafts subjected to a torque To...
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
ATTEMPT ALL QUESTIONS (All solutions must include free body diagrams) 1000 lb SO Question 1 Determine the force in each member of the truss and state if the members are in tension or compression. (Draw the Free Body Diagram (FBD) of the structure and joints for solving internal forces) (35 points) 10 ft ---10 -- --10 ft-------10ft-- 600 lb
For the two frames given below Compute the Support Reactions Draw the Free Body Diagrams for all members, and joints with concentrated load or moment Draw the Bending Moment Diagram, Shear Force Diagram, and Axial Force Diagram using the sign conventions and labeling scheme taught in the class Draw the Qualitative Deflected Shape, clearly showing the Inflection Points, if any. 1. (50 points) 45 k Need FBD 3 k/ft 15 ft 2. (50 points) 15 kN/m F G 65 kN...
It's a problem of Mechanics of Solids. Kindly show all the
works.
QUESTION 1 (TEST 2) (a) For the beams shown in Figure Q1(a) to Q10), select the beam which is under pure bending. Explain what is pure bending. No calculation is required. (2 marks) P(N) P(N) PIN (Nm) P (N) Figure Q1(a) Figure Q1(b) Figure Q1(c) (6) For the beams shown in Figure Q1(d) to Q1(f), select the beam which you expect to have the contra- flexure point. Explain...
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
QUESTION 2 |15 MARKSI (a) Figure 2 shows a collar with a mass, m of 25 kg and coefficient of kinetic friction, pk of 0.3. The attached spring has an unstretched length 7=0.15 m and a stiffness k = 55 Nm. (i) Draw the free-body diagram (FBD) of the system when the collar is at point A with applied force, F = 250 N acting at angle 6 = 30° as shown in Figure 2. [4 Marks] (ii) Find the...
please help solve for what is asked in orobkems A-H and the
free body diagrams as well. Will upvote if correct
A
B
C
D
E
F
G
H
B 4 m 6 m 3 m 12 m 2 m F=80 N Determine the projected component of the force acting along the axis AB of the pipe. 60° A The 30kg pipe is supported at A by a system of five cords. Determine the force in each cord for equilibrium....
QUESTION 2 [30 Marks) The framed structure shown in Figure 2 has simple supports (i.e. is free to rotate) at joints A and G. Members AC and GE are vertical, while CE and EH are horizontal. There is an internal moment release at joint C. A uniformly distributed load of 5 kN/m is applied between D and E, and another uniformly distributed load of 4 kN/m is applied between F and G as shown. There is also a horizontal point...
OUESTION 2 The solid cylindrical member in Figure 3 is under a point load of P at point C. If the beam has a radius ofr 50 mm, length L = 4 m, and load P 5 kN and E= 200 GPa (a) Draw the free body, shear force, bending moment and torque diagrams for both sections of the member (4 Marks) (b) What is the maximum bending stress induced in the member? (3 Marks) (c) What is the maximum...
Only question 3-3, draw a
FBD
3-1* to 3-4 Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of each force using an algebraic or vector method, as specified. 100 lbf 100 lbf 12 in 10 in 6 in 12 in 10 in 10 in 10 in- Problem 3-1 Problem 3-2 F-400 N 30° F=0.8 KN -0.9 m IE Problem 3-3 Problem 3-4
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
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