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QUESTION 2 a) The frame shown in Figure Q2 below supports a 180 N from its cable. Draw the free body diagram for th...
180 N 2 m 3 m (O 2.5 m 3 m Figure Q2 Analyse (with simple calculation) the new force required to pull the cable on...
180 N 2 m 3 m (O 2.5 m 3 m Figure Q2 Analyse (with simple calculation) the new force required to pull the cable on the pulley, should the diameter of the pulley have been now doubled from its original value to maintain the system in equilibrium. b) (4 marks)
180 N 2 m 3 m (O 2.5 m 3 m Figure Q2 Analyse (with simple calculation) the new force required to pull the cable on the pulley, should...
Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E...
Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E b) ) Construct the free body diagram for the entire structure, the disc and member DBE t) By applying equation of equilibrium, determine the horizontal and vertical components of the force that is acting on the hinge of member DBE il) if the weight of the cylinder is increased to 60 N and all the reaction forces are remain unchanged evaluate the new radius...
For the frame shown below, the radius of pulley is 0.5 m. a) Draw the free...
For the frame shown below, the radius of pulley is 0.5 m. a)
Draw the free body diagram of the entire frame and of each member,
including a diagram for the pulley. Show all forces, including the
directions, if known. b) Determine the components of the reactions
at A and E. Specify the direction (→, ←, ↑, ↓) for each.
1m Зт Зт С 1m В 2m ОА Е 700 N
b) Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and...
b) Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E )Construct the free body diagram for the entire structure, the disc and member DBE i) By applying equation of equilibrium, determine the horizontal and vertical components of the force that is acting on the hinge of member DBE li) If the weight of the cylinder is increased to 60 N and all the reaction forces are remain unchanged, evaluate the new radius of...
2. (a) Draw a free body diagram for member ABC shown below. (b) Determine the reactions...
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
draw free body diagram, draw coordinate system, isolate object from its supports , add applied forces...
draw free body diagram, draw coordinate system,
isolate object from its supports , add applied forces and body
force to object , determine known and unknown variables , resolve
force vectors into components , write the equilibrium equations ,
choose points about which moments rotate and show + direction ,
substitute values for the variables and solve for unknowns
rthe trusses shown below, neglect self-weight, and do the following: (a) Draw a free body diagram and solve for the reactions....
QUESTION 2 The bent rod OABDE shown in Figure 02 is supported by a ball and...
QUESTION 2 The bent rod OABDE shown in Figure 02 is supported by a ball and socket joint at 0, a radial bearing at D, and cable AF. The rod is subjected to a 200 N load applied at B. The mass of the bent rod can be neglected. The radial bearing E does not support any axial force and moments. For this instant: - a) Draw the free body diagram of the bent rod OABDE. b) Determine the reactions...
Need answers for all questions. Thanks. QUESTION 2 ( 6 marks) a) Complete the free body...
Need answers for all questions. Thanks.
QUESTION 2 ( 6 marks) a) Complete the free body diagrams (FBD 1 and FBD 2). b) Complete the free body diagrams (FBD 1 and FBD 2). All contacting surfaces are smooth. Member ACE has a mass m and its center of gravity is at point C. Pumas FBD2 QUESTION 3 ( 6 marks) Determine the reaction at pin O and the force in hydraulic cylinder BC for the crane given in Figure Q3...
3- (SKMMIH3/SME2113) from plastic having modulus of elasticity, E-4.0GPa a) Bar ABCD shown in Figure Q3a is made The bar consists of three segments, AB, BC, and CD. Segment AB is hollow and segm...
3- (SKMMIH3/SME2113) from plastic having modulus of elasticity, E-4.0GPa a) Bar ABCD shown in Figure Q3a is made The bar consists of three segments, AB, BC, and CD. Segment AB is hollow and segments BC and CD are solids If the shortening (contraction) of bar ABCD is limited to 4.0 mm, determine the maximum allowable force P to be applied at C. (8 marks) 90 mm ΟΙ 00 mm 1080 min PL 500 mm 250 mm 250 mm Figure Q3a...
x7=12KN , x8=19kN/m, x4=4m, x5=39m, x6=5m, Q2. In the 3-span beam shown in the Figure 2, the...
x7=12KN , x8=19kN/m, x4=4m, x5=39m, x6=5m,
Q2. In the 3-span beam shown in the Figure 2, the support at C settles by 15 mm. Using the method of moment distribution method, a) Calculate joint moments (10 marks); b) Draw the bending moment diagram (10 marks); c) Calculate the supports' vertical reactions (10 marks); and d) Draw the shear force diagram (5 marks). Hint: For the calculation of Fixed End Moments, you can use the principle of superposition to add the settlement-related...
180 N 2 m 3 m (O 2.5 m 3 m Figure Q2 Analyse (with simple calculation) the new force required to pull the cable on the pulley, should the diameter of the pulley have been now doubled from its original value to maintain the system in equilibrium. b) (4 marks)
180 N 2 m 3 m (O 2.5 m 3 m Figure Q2 Analyse (with simple calculation) the new force required to pull the cable on the pulley, should...
Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E b) ) Construct the free body diagram for the entire structure, the disc and member DBE t) By applying equation of equilibrium, determine the horizontal and vertical components of the force that is acting on the hinge of member DBE il) if the weight of the cylinder is increased to 60 N and all the reaction forces are remain unchanged evaluate the new radius...
For the frame shown below, the radius of pulley is 0.5 m. a)
Draw the free body diagram of the entire frame and of each member,
including a diagram for the pulley. Show all forces, including the
directions, if known. b) Determine the components of the reactions
at A and E. Specify the direction (→, ←, ↑, ↓) for each.
1m Зт Зт С 1m В 2m ОА Е 700 N
b) Figure Q5(b) shows a frame ABCDE that is supported by a hinge at A and E )Construct the free body diagram for the entire structure, the disc and member DBE i) By applying equation of equilibrium, determine the horizontal and vertical components of the force that is acting on the hinge of member DBE li) If the weight of the cylinder is increased to 60 N and all the reaction forces are remain unchanged, evaluate the new radius of...
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
draw free body diagram, draw coordinate system,
isolate object from its supports , add applied forces and body
force to object , determine known and unknown variables , resolve
force vectors into components , write the equilibrium equations ,
choose points about which moments rotate and show + direction ,
substitute values for the variables and solve for unknowns
rthe trusses shown below, neglect self-weight, and do the following: (a) Draw a free body diagram and solve for the reactions....
QUESTION 2 The bent rod OABDE shown in Figure 02 is supported by a ball and socket joint at 0, a radial bearing at D, and cable AF. The rod is subjected to a 200 N load applied at B. The mass of the bent rod can be neglected. The radial bearing E does not support any axial force and moments. For this instant: - a) Draw the free body diagram of the bent rod OABDE. b) Determine the reactions...
Need answers for all questions. Thanks.
QUESTION 2 ( 6 marks) a) Complete the free body diagrams (FBD 1 and FBD 2). b) Complete the free body diagrams (FBD 1 and FBD 2). All contacting surfaces are smooth. Member ACE has a mass m and its center of gravity is at point C. Pumas FBD2 QUESTION 3 ( 6 marks) Determine the reaction at pin O and the force in hydraulic cylinder BC for the crane given in Figure Q3...
3- (SKMMIH3/SME2113) from plastic having modulus of elasticity, E-4.0GPa a) Bar ABCD shown in Figure Q3a is made The bar consists of three segments, AB, BC, and CD. Segment AB is hollow and segments BC and CD are solids If the shortening (contraction) of bar ABCD is limited to 4.0 mm, determine the maximum allowable force P to be applied at C. (8 marks) 90 mm ΟΙ 00 mm 1080 min PL 500 mm 250 mm 250 mm Figure Q3a...
x7=12KN , x8=19kN/m, x4=4m, x5=39m, x6=5m,
Q2. In the 3-span beam shown in the Figure 2, the support at C settles by 15 mm. Using the method of moment distribution method, a) Calculate joint moments (10 marks); b) Draw the bending moment diagram (10 marks); c) Calculate the supports' vertical reactions (10 marks); and d) Draw the shear force diagram (5 marks). Hint: For the calculation of Fixed End Moments, you can use the principle of superposition to add the settlement-related...
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