YD D 7 m B 2 m 2 kN 4 m -5 m- 3 m- 4 kN Prob. 5–1
Q: The cable will fail when subjected to a tension of 2 kN. Determine the largest vertical load P the…
A: The free body diagram of the given figure is shown below.
Q: Determine the magnitude of force at the pin A and in the cable BC needed to support the 590-lb load.…
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Q: 3. Determine the location of the low point C relative 2 m to the support at A. Also determine the…
A: Use General mathematical Properties and Equilibrium of Forces to get the solution for the Cable…
Q: 1okN cable 30° 2n t 4m zm t zm t
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Q: Determine the tension developed in each cable for equilibrium of the 300-lb crate.
A: The given figure is shown below:
Q: Refer to Fig. 2.4. The tension in the cable BD is 1 kN. As a result, cable BD exerts a 1-kN force…
A: The given figure is shown below:
Q: 1. The cable is attached to a fixed support at A and a moveable support at B. If the cable is 80-ft…
A: to determine force F and sag
Q: When the load Lis 9.1 m from point C, the tension T in the cable has a magnitude of 9.5 kN. Express…
A: As per guidelines we can solve one question at a time, please upload separately,Thankyou Express T…
Q: an 43. The three cables are used to support the 40-- lowerpot. Determine the force developed in each…
A: Given:- mass =40kg To find:- Force in cable AD Force in cable AC Force in cable AB
Q: Determine the force P needed to hold the cable in the position shown, i.e., so segment BC remains…
A: The given figure is shown below:
Q: Determine the forces P1 and P2 needed to hold the cable in the position shown, i.e., so segment BC…
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Q: Determine the force P needed to hold the cable in the position shown, i.e., so segment BC remains…
A: Consider joint B as follows: From trigonometry:
Q: Determine the resultant of the forces exerted at point B if the tension in each cable is 450 N. 2m…
A: Express each force as Cartesian vector. Then sum up the two Cartesian vectors to obtain the…
Q: Compute
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Q: A uniform cable weighing 15N/m is suspended from points A and B. The force in the cable at B is…
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Q: Determine the tension in each cable and the components of reaction at D needed to support the load.
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Q: 2. Coble AB of span L= 210 m supports the uniformly distributed load wo = 80 N/m. The horizontal…
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Q: Find the tension in leg AC of the cable if the sag, h = 4¹. с 400#
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Q: The cable AB prevents bar OA from rotating clockwise about the pivot O. If the cable tension is 680…
A: The given figure is shown below:
Q: 20' Cw - 4 kips/ft - 4 @ 25' = 100'- Determine the: 3.a. Reactions at supports 3.b. Tension at each…
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Q: The bent rod ABDE is supported by ball- and-socket joints at A and E and by the cable DF. If a…
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Q: If a = 3 m, determine the magnitudes of P and Q required to maintain the cable in the shape shown.
A: The given diagram is shown below:
Q: The cable supports the three loads shown.Determine the sags yB and yD of B and D. Take P1 = 800 N,…
A: Given: The cable supports the three loads shown.The sags yB and yD of B and D. Take P1 = 800 N, P2 =…
Q: 2 ft 5 ft 50 Ib -3 ft -4 ft- 3 ft
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Q: Determine the tension in each segment of the cable and the cable's total ength. Jse X = 2 and Y = 7.…
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Q: Determine the maximum mass of the crate so that the tension developed in any cable does not exceeded…
A: The free body diagram of the ring at A is as follows:
Q: The crate has a mass of 130 kg. Determine the tension developed in each cable for equilibrium.
A: Following is the free body diagram of the crate supported by the cables:
Q: The cable supports the uniform load of w0 = 600 lb/ft. Determine the tension in the cable at each…
A: Draw free body diagram The origin of the coordinate axes is established at point C, the lowest…
Q: For the beam and loading shown, determine the tension in the cable at D and the support reactions at…
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Q: 5-5. The cable supports the loading shown. Determine the magnitude of the horizontal force P so that…
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Q: A cable ABCD is pulled at end E by a force P as shown in Q. 2. The cable is supported at point D by…
A: My dear Given data UDL Cable shape and its deflected co ordinates Horizontal reaction at F =0 We…
Q: Determine the tension in each segment of the cable shown.
A: The free body diagram of the cable is given below.
Q: 1. The cable is attached to a fixed support at A and a B moveable support at B. If the cable is…
A: Find the Sag and force in cable
Q: The cable supports the loading shown. Determine the magnitude of the horizontal force P so that xB =…
A: Consider the free body diagram if the cables supporting the load as shown below. In triangle ABE.…
Q: 5–1. Determine the tension in each segment of the cable and the distance yp- A D 7 m В 2 m 2 kN - 4…
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Q: 3. What would be the magnitude of forces P and Q that would maintain the shape of the cable as shown…
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Q: weighs 30 N/m. The cable shown in Fig. If the sag h, in the cable is 200 m, determine The tension in…
A: Consider the given diagram. From the above diagram, hA=120+hB200=120+hBhB=80 m So, the sag of the…
Q: From the given cable shown. Determine the minimum tension in the cable in kips Let w = 12 kips/ft…
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Q: 1. Determine the tension in each segment of the cable and cable's total length. 2m 3.5 m 25 KN to 2…
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Q: Betermine the reactions at the supports, the magnitude of the cable sag at joints B and E, the…
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Q: The cable supports the loading shown. Determine the magnitude of the horizontal force P so that…
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Q: Determine the tension in each segment of the cable and the distance yD. 7 m В 2 m 2 kN 4 m 5 m 3 m 4…
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Q: 7-97. The cable supports the loading shown. Determine the distance xg the force at B acts from A.…
A: Given Data: The force P is P = 800 N. To Determine: The distance xB the force at B acts from A.
Q: 3. Determine the location of the low point C relative 2 m to the support at A. Also determine the…
A: Given: wu=1 kg/md=1 md1=2L=10 m
Q: THE CABLE ABCD IS HELD IN THE POSITION SHOWN BY THE HORIZONTAL FORCE P. DETERMINE P AND THE FORCE IN…
A: The vertical component of the cable force is then equal to the shear force in the beam. The vertical…
Q: Determine the tension in each segment of the cable showN. E YD 12 m 3 kN 4 kN 15 kN 5m+ 8m 3m 2m
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Q: 2. The cable supports the uniform load of wo = kN/m. Determine the tension in the cable at each…
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Q: Auniform cable weighing 15N/m is suspended from points A and B. The force in the cable at B is known…
A: We have been given the following informationA uniform cable weighing 15 N/m is suspended from points…
Q: D 10 m OC 2 m 8 m 3 m 100 kN 80 kN
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Q: cable in the position shown, i.e., so segment BC rema horizontal. -1. Determine the tension in each…
A: As per guidelines we need to answer only first question so please repost rest questions separately.
Determine the tension in each segment of the cable and the distance yD.
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- Ans- 5121 KsiAt-beam has a width of flange equal to 700mm and a thickness of 100mm. It has an effective depth of 450mm and the width of the web section is 350mm. It is reinforced at the bottom with a steel area of 2925sq.mm. fc'=17.24MPa, fy=413.7MPa. The depth of the compression block is _mm. A. 136.00mmB. 146.00mmC. 126.00mmD. 156.00mmPrblm 4c,
- Higher Order L.D.E (D3+6D2+5D-12)y=0The solid 38 mm diameter steel [E = 200 GPa] shaft supports two belt pulleys. Assume that the bearing at B can be idealized as a roller support and that the bearing at D can be idealized as a pin support. For the loading shown, determine: (a) the shaft deflection at pulley A. (b) the shaft deflection at pulley C. Assume P = 950 N, Q = 1150 N, LAB = 650 mm, LBC = 900 mm, LCD = 900 mm.The simply supported beam consists of a W530 × 66 structural steel wide-flange shape [E = 200 GPa; I = 351 × 106 mm4]. Determine(a) the beam deflection at point A.(b) the beam deflection at point C.Assume P = 44 kN, w = 87 kN/m, LAB = 4.0 m, LBC = 4.0 m, LCD = 4.0 m, LDE = 2.0 m.Answer:vA = mmvC = mm
- The solid 34 mm diameter steel [E = 200 GPa] shaft supports two belt pulleys. For the loading shown, determine: (a) the shaft deflection at pulley B. (b) the shaft deflection at pulley C. Assume P = 810 N, Q = 480 N, LAB = 260 mm, LBC = 400 mmQuestion:- A 7.5 meters long simply supported structural steel beam carries two concentrated loads P at every third points. Use A 572 Grade 65 steel with Fy=448.18 MPa. The beam is W310x23.8 section having the given properties. A=3040mm² d= 305mm tw= 5.6mm bf=101mm tf= 6.7 mm Ix= 43x10⁶ mm⁴ Iy=1.2x10⁶mm⁴ a) Calculate the allowable bending stress of the compression flange of beam 7.5 fully supported against lateral movement. b) Based from the previous question, calculate the value of concentrated load P that the beam could support safety.compute the safe factored uniformly distributed deadload that will be added to the weight of the beam. the beam is simply supported with an span of 6m and carries a uniformly distributed liveload of 20kN/m. use ycon=2 4KN/m³ b=280mm d=415mm fc'=25MPa As=6-20mm diameter bar the answer is_____KN/m
- 1. Two A36 16mm Thick Steel Plates Are Connected By Four Rivets With Fv=152 MPa As Shown. Given: Rivet DIa 20 mm x=100 mm a. Calculate "P" in KN considering tension failure on gross area b. Calculate "P" in KN considering tension failure on net area c. Calculate "P" in KN considering failure on bearing on projected area. d. Calculate "P" in KN considering failure on shear on rivets e. Calculate "P" in KN considering failure on bearing on block shear f. Calculate the maximum safe load "P" in KNA flange bolt coupling has ten steel 25.4 mm diameter bolts evenly tighten around a 415 mm bolt circle. Determine the torque capacity of the connection if the allowable shearing stress in the bolt is 50 MN/m2 . A. 59.95 kN - m B. 52.6 kN - m C. 46.15 kN - m D. 43.8 kN – mA steel beam having a span of 14 m. carries a dead load concentrated load Pp = 60 kN at its midspan. The beam is laterally supported at its span. Properties of the wide flange section. rts - 104.39 mm ho - 338.08 mm Jo -1.69 x 10^6 Cw - 4.3 x 10^12 d=356.11 mm tf = 18.03 mm tw - 11.18 mm Sx - 2343 x 103 mm rx = 155.96 mm ry - 93.98 mm Sy = 818 x 10^3 mm Zx = 2573 x 10^3 mm Zy= 1239 x 10^3 mm Fy = 345 MPa Iy = 151 x 10 mm Lp=3.98 Lb=14m Lr=12.98 Cb=1.14 Determine the safe concentrated live load that the beam could support at the center based on its design strength