The roof structure below is exposed to snow with an intensity of W1 (500 kN/m). Calculate the support reactions, then, determine the internal force functions. Use m and kN.
W1 = 500 kN/m
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The roof structure below is exposed to snow with an intensity of W1 (500 kN/m). Calculate...
When w1 = 10 kN/m, w2=8 kN/m, w3 = 2 kN/m, a = 3 m and b = 3 m for the system shown below, determine the internal moment in kN.m at a section passing through point C. Thereafter, choose the correct answer from the values provided below.
6 m 6 m 3m In 5 kN 6 m 3 m Figure 3 25 MARKS Question 4 For the same structure in Figure 3, determine the support reactions using the moment distribution method.
6 m 6 m 3m In 5 kN 6 m 3 m Figure 3 25 MARKS Question 4 For the same structure in Figure 3, determine the support reactions using the moment distribution method.
Question Four: For the pin-jointed truss shown in Figure 4, 3m 12 KN 3m 30 kN 3m 15 kN 4m 4m 3m 3m 6m Figure 4. Calculate the reactions at A and B. (a) By inspection (involving no calculations), list all the zero force members. (b) (c) By method of joints, analyse joints T, S and N to determine the force in members ST NT, RS, SN, MN and RN. In your answer, you must state whether the members are...
④ Given the structure exposed to the exterior charges, please calculate a) Reaction components in the left support. 6) Reaction components in the right support. c) Force on each bar, indicating whether it is traction or compression. Data: P(KN) = 1 a (ml=1 D
Sketch the restraining forces at each joint for the structure shown below. 30 kN/m 20 kN/m 25 kN/m 4m 6m 5m
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m 4m -39 4 KN
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m...
Question 15 For the truss shown in the figure below, determine the vertical reaction force at support A 5 kN 3 m 45 1 m 2 m +5 KN + 4.3 kN -3 kN -5 kN Question 16 For the truss shown in the figure below, determine the horizontal reaction force at support D: 5 kN 45° 1 m 2 m + 15 kN - 12.5 kN 0 kN +5 kN Question 17 For the truss shown in the figure...
The figure shows the beam structure supporting distributed load 30 kN/m An d the figure below shows the correct free body diagram of the entire beam structure and the reactions 120 kN 60 kN 60 kN 4 m When using the method of sections to find the internal loads at C, which of the following FBDs is correct? FBD 2 FBD 1 30 kN/m 60 kN 4 m 60 kN FBD 3 120 N FBD 4 120 kN 60 kN...
Question 1: For the below truss, if 0=20°, calculate: → 5 kN 1.5 m 2 m - 2 m — 9 KN a. The reactions at A and B (15 marks) b. The internal forces in members BD, DC and AB using section method (25 marks)
Determine the force in all members of the roof truss below. State whether each member is in tension or compression. Don't try to cram the work on this one sheet. You may use Method of Joints or Method of Sections. 1.6 m 1.6 m 1.6m 16 m 1.6 m 1.6 m 24 kN 1.2 kN 2.4 kN 2.4 kN IH 1.2 kN 2.4 K 0.9 m 1.8 18m 1.8m 1.8m 2.4m