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Question 1) Analyze the cable system shown (find reactions and cable forces) 8 kN 3 m...
1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m
1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m
1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m
II.- The pole is supported by a "ball and socket joint" at point A (foundation) and by a lateral cable as shown. If the forces of 5kN are in the x-y plane. Determine the tension in the cable...
II.- The pole is supported by a "ball and socket joint" at
point A (foundation) and by a lateral cable as shown. If the forces
of 5kN are in the x-y plane. Determine the tension in the cable and
the reactions of the pole at point A.
5 kN 30° 5 kN 30 3 m 2 m 1.5 m .t
5 kN 30° 5 kN 30 3 m 2 m 1.5 m .t
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 fi...
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...
STATIC In the energy transmission line shown in the figure, 20 (kN / m) BC cable...
STATIC In the energy transmission line shown in the figure, 20 (kN / m) BC cable along the AB cable horizontal opening is loaded with 10 (kN / m) uniformly distributed load along the horizontal opening. Calculate the greatest cable strength and B support reactions occurring in the AB cable. 20kN/m 10 kN/m 7,5m 5m A X 150m * 100+
Required information Consider the figure shown. Given: X -30 KN. 6 m 15 kN X kN...
Required information Consider the figure shown. Given: X -30 KN. 6 m 15 kN X kN Determine the reactions at supports A and E and the maximum tension in the cable as shown in the figure. The reaction at A (Axin the cable is kN The reaction at A (Ay in the cable iskN. The reaction at E(Ex) in the cable is「RN. The reaction at E(Ey) in the cable is kN. The maximum tension in the cable (Tmax isKN.
(2)A system of three forces and a couple act on a square plate ADEC as shown. 12 kN 20 kNm F 6 kN Evaluate the statical...
(2)A system of three forces and a couple act on a square plate ADEC as shown. 12 kN 20 kNm F 6 kN Evaluate the statically equivalent system of forces F, F2 and F3 which act along the sides of the equilateral triangle ABC ( These forces are not proportional to the sides of the triangle.) 650 10 kN reaceses F F. 2 m F2 18.4 kN F1 22.48 k N F2 16.78 kN and F 3 20.7 kN F1...
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
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.
Analyse the structure shown and determine the following: a) Reactions (8 marks) b) Shear force diagram...
Analyse the structure shown and determine the following:
a) Reactions (8 marks)
b) Shear force diagram (4 marks)
c) Axial force diagram(4 marks)
d) Bending moment diagram (4 marks)
Question 1 (20 marks) Analyse the structure shown and determine the following: a) Reactions (8 marks) b) Shear force diagram (4 marks) c) Axial force diagram(4 marks) d) Bending moment diagram (4 marks) 25 kN/m 2C 3 m D 4 m 6 m Show your computations in the solution book then...
QUESTION 3 (Sp): I The cable geometry and load conditions are shown at left, a.) If...
QUESTION 3 (Sp): I The cable geometry and load conditions are shown at left, a.) If maximum cable force is 5590 KN than find sag value f. b.) Find cable force at point c. c.) Find cable length 40m 25 KN/m 200m
determine the reactions at the supports for the beam shown. 150 kN stant 40 kN/m rmly...
determine the reactions at the supports for the beam shown.
150 kN stant 40 kN/m rmly e ex- ns of and 8 m 20 kN/m s as A 6 m 6 m 6 m FIG. P3.17
1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m
1] Determine the reactions at the supports. (20 points) 3 kN 3 m 6 kN 8 kN 2 m
II.- The pole is supported by a "ball and socket joint" at
point A (foundation) and by a lateral cable as shown. If the forces
of 5kN are in the x-y plane. Determine the tension in the cable and
the reactions of the pole at point A.
5 kN 30° 5 kN 30 3 m 2 m 1.5 m .t
5 kN 30° 5 kN 30 3 m 2 m 1.5 m .t
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...
STATIC In the energy transmission line shown in the figure, 20 (kN / m) BC cable along the AB cable horizontal opening is loaded with 10 (kN / m) uniformly distributed load along the horizontal opening. Calculate the greatest cable strength and B support reactions occurring in the AB cable. 20kN/m 10 kN/m 7,5m 5m A X 150m * 100+
Required information Consider the figure shown. Given: X -30 KN. 6 m 15 kN X kN Determine the reactions at supports A and E and the maximum tension in the cable as shown in the figure. The reaction at A (Axin the cable is kN The reaction at A (Ay in the cable iskN. The reaction at E(Ex) in the cable is「RN. The reaction at E(Ey) in the cable is kN. The maximum tension in the cable (Tmax isKN.
(2)A system of three forces and a couple act on a square plate ADEC as shown. 12 kN 20 kNm F 6 kN Evaluate the statically equivalent system of forces F, F2 and F3 which act along the sides of the equilateral triangle ABC ( These forces are not proportional to the sides of the triangle.) 650 10 kN reaceses F F. 2 m F2 18.4 kN F1 22.48 k N F2 16.78 kN and F 3 20.7 kN F1...
Analyse the structure shown and determine the following:
a) Reactions (8 marks)
b) Shear force diagram (4 marks)
c) Axial force diagram(4 marks)
d) Bending moment diagram (4 marks)
Question 1 (20 marks) Analyse the structure shown and determine the following: a) Reactions (8 marks) b) Shear force diagram (4 marks) c) Axial force diagram(4 marks) d) Bending moment diagram (4 marks) 25 kN/m 2C 3 m D 4 m 6 m Show your computations in the solution book then...
QUESTION 3 (Sp): I The cable geometry and load conditions are shown at left, a.) If maximum cable force is 5590 KN than find sag value f. b.) Find cable force at point c. c.) Find cable length 40m 25 KN/m 200m
determine the reactions at the supports for the beam shown.
150 kN stant 40 kN/m rmly e ex- ns of and 8 m 20 kN/m s as A 6 m 6 m 6 m FIG. P3.17
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