CABLES & RODS 1. The block system is stationary as shown in the figure. Compute the internal reaction of the horizontal cable GI.
Q: Q.2) For the system and load shown in figure, Determine the reaction forces of bearing at A and B,…
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Q: The forces in the figure act on the joints of a Pratt truss due to the snow load. Assuming that no…
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Q: Find the forces in the three members of the space truss shown in the figure. 600 mm 500 mm 820 mm-…
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Q: A simplified crane is shown in Figure 9 lifting a 400-kg load. The crane is supported by a pin joint…
A: given load weight = 400 kg crane is supported at A with a pin joint, so applying equilibrium…
Q: A uniform solid disk of mass M and radius R hangs from a string of length L attached to a smooth…
A: Given data: Mass of solid disk = M Radius of solid disk = R…
Q: Problem. The frame shown in the figure is supported in pivots at A and B. Each member weighs 5 kN/m.…
A: Given;-Each member weight= 5 kN/mAC=1.5mCF=3mFB=1.5mCD=4mDE=2mForce at E downwards=380 kNTo…
Q: Calculate reactions in pin support (C) and tension in the cable, neglect weight effects
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Q: a) Figure Q5a shows a truss structure in static equilibrium that is simply supported at A and C.…
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Q: b. Suppose that a traction on the foot maintained shown in the figure below. Draw the free body…
A: The traction is given on foot muscle
Q: Two loads 400N and 500N are suspended in a vertical plane by three springs as shown in Figure. Find…
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Q: Find the reactions at pins A, B, and C in the frame below if you REPLACE the 6 kips pointing down at…
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Q: Take note that if the figure CDFE is traced, it becomes a parallelogram. Additionally, members BCD…
A: Given Data The compressive force of AB is:FAB=-37 kN To find: The load L in kN. The force in link…
Q: The crane shown in the figure supports in G a weight of 150 lb (includes the log and the grapple…
A: For the given crane Weight = 150 lb To draw (a) FBD of entire crane (b) FBD of part EFG and part…
Q: Calculate the reactions at supports A and B of the truss in the figure. Neglect the weight of the…
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Q: Suppose that a traction on the foot maintained shown in the figure below. Draw the free body diagram…
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Q: The boom ABC in Fig 4 is held by the ball and socket joint at A and the two cables EBF and CD, as…
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Q: 9. The frame shown in Figure 1-67 is supported in pivots at A and B. Each member weighs 50 lb per…
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Q: A uniform solid disk of mass M and radius R hangs from a string of length ` attached to a smooth…
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Q: ..) Determine reactions in A and tension in cable as shown in figure?
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Q: Problem 4.2 - Bar AB is 4 feet long and weighs 20 lbs. It is supported by two cords and by smooth…
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Q: actions of supports A and B of the truss in the fi
A: Roller B will give only normal reactions pin joint A give both reactions
Q: The springs are connected to two rigid vertical bars as shown in Figure 1. Compute the displacement…
A: let x be the displacement of bar 1 y be the displacement of bar 2 formulae for force if…
Q: . Calculate the force in the cable and the components for the pin reaction at A D Cable 35° A C 8 ft…
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Q: Force polygon. Truss. Find the forces in the system of two rods (truss) in the figure, where |p| =…
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Q: > Determine reactions in A and tension in cable as shown in figure?
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Q: Problem 2. Determine the support reactions given the figure below.
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Q: 4.) Calculate the pin reactions at A, B, and C for the system shown. Assume all structural members…
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Q: Two AC and BC cables are connected at point C as shown in the figure and are loaded with a mass…
A: The free body diagram of the system is as follows:
Q: Example: Body M shown in figure weighs (300 N) and the homogeneous bar BE weighs (60 N). Draw the…
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Q: The frame as shown in the Figure consist of two members AC and BE. Calculate the following: 1-…
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Q: On the figure below, an 80lb force (horizontally) is applied at point A, as shown. Find the forces…
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Q: Calculate the forces arising on A, B and D pins with the effect of 500N horizontal force in the…
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Q: Find the reactions at pins A, B, and C in the frame below if you REPLACE the 6 kips pointing down at…
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Q: ind the reaction of both supports
A: Given: TO determine: Reaction supports
Q: Frame ABCD as in Figure Q1 is pin connected at A and roller supported at B. (a) Sketch the free body…
A: Given data Given force system
Q: The block system is stationary as shown in the figure. compute the internal reaction of horizontal…
A: Given data Given force system.
Q: The pole is subjected to the two forces shown in Figure Ql. Determine the support reaction A with…
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Q: In the diagram below shows a truss structure which is subjected to an applied load and supported by…
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Q: . A block of 200 kg mass is supported by two cables in figure. Find the magnitude of the forces in…
A: Given: The mass of the block is, m=200 kg. So, the weight of the block can be calculated as,…
Q: (4) The Jib crane shown in figure carries load of W. If the maximum load in the tie is 25 kN,…
A: Given data: The free body diagram of the setup is,
Q: Determine the roller reaction (in kN) at point A of the frame shown.
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Q: Find the reaction forces of the supports on the truss and the forces in all members of the truss…
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Q: 4. The frame shown is pin-connected at joints A, B, D and E. The frame is subjected to a uniform…
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Q: Given the figure at the right, solve for the support reactions.
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Q: The frame shown in Figure below is supported in pivots at A and B. Each member weighs 800 N/m.…
A: 1. In figure units of length is feet but in given data member weight is 800 N/m so I am taking meter…
Q: For figure a and b show calculations to determine the support reactions PLUS draw proper free body…
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Q: The frame shown in the figure is supported by a hinge at E and a roller at D. Compute the horizontal…
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Q: The boom 4C is supported at 4 by a ball-and-socket joint and by two cables BDC and CE (figure 3).…
A: Step 1:Weight = 80N Coordinates of CRD C (0, 12, 0)m…
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- Q5/A) From the figure below, determine the reaction force at pin C. A 000 0.6 m 10 kN 0.6 m 0.8 m 60° 0.4 m 6 kN OBGIVEN: DISTANCES CO= 7m BO= 7m OD= 8m AD= 8m GIVEN: WEIGHT W1= 195 N W2= 295 N GIVEN: ANGLE X= 55 Degree Y= 48 Degree SOLVE: (a) Tension at CB in NEWTON (b) Reaction at point O in NEWTON PLS PLS SOLVE AND SHOW COMPLETE SOLUTION AND WRITE LEGIBLY. ALSO, DRAW THE FREE-BODY DIAGRAM. ROUND OFF IN 4 DECIMAL PLACES.The linkage shown is used in a vehicle suspension system. Find the forces indicated below when a static force of F = 820 lb is applied to the tire at point C at an angle of 0 = 22° as shown. Assume the connection of the wheel to member AB is rigid. hs hy hi F BY NC SA W4. W, Ws 2013 Michael Swanbom Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value Variable Value hi 10 in Wi 8.8 in h2 15.6 in W2 5.6 in h3 18.1 in W3 10.8 in h4 10.9 in WĄ 7.4 in h5 4.9 in W5 9.3 in For all answers, take x as positive to the right and y as positive upward. At point B, member AB exerts a force of B = j lbs on member BHE. At point A, member AD exerts a force of A + j lbs on member AB. At point H, shock GH exerts a force of H = i + i lbs on member ВНЕ. At point E, the magnitude of the force exerted on the car body by member BHE is lbs. At point D, the magnitude of the force exerted on the car body by member AD is lbs. At point G, the…
- The diameter of two pulleys are (0.3m)and (0.2m), center distance (1m).if we use open belt drive. Determine: 1- the length of V- belt (2ß = 60°). 2- the contact angle between belt and smaller pulley. 3- the horse power, if the smaller pulley turn with speed (400r.p.m) and the tension force in tight side (T1=90ON), coefficient of friction u=0.3 4- the speed of large pulley.PART 2: Determine whether the given mechanisms are Grashof's Chain, Non- Grashof's Chain or Transition chain using Grashof's criterion. Show your solution. 1. If: AB = 25 cm BC = 43 cm CD = 45 cm AD = 50 cm 2. If: AB = 1 ft BC = 1.8 ft CD = 2.4 ft AD = 3.5 ft D 3. If: AB = 6 in BC = 13.2 in CD = 21.1 in AD = 25.7 inSTATIC I need the answer within 1 hour. Thanks Using the knot method, find the force that each element in the truss system carries. Indicate whether these elements are under tensile force or under compression force. F1(N)=11 , F2(N)=23
- Solve for Problem 2, when RN1 = 0145Determine the reaction force on the x axis for node 3. Consider k1= 200 lb/in, k2 = 400 lb/in y P = 1 500 lb F3x =____ lb 2 3 450. 45⁰ 1 000 lb -500 lb 600 lb - 1 000 lb -750 lb ki 45° PThe linkage shown is used in a vehicle suspension system. Find the forces indicated below when a static force of F = 1000 lb is applied to the tire at point C at an angle of 0 = 17° as shown. Assume the connection of the wheel to member AB is rigid. 1 h₁ K: LOFF 0 W₁ h₂ h3 h4 h5 B W₁₂ AXHIMAL W4 hs: h₂ cc i❀O BY NC SA 2013 Michael Swanbom W3 - W₁ Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value Variable Value h₁ 6.6 in W1 7.5 in 16.6 in W2 4.6 in 14.6 in W3 8.3 in 10.2 in W4 6.2 in 5.2 in W5 9.7 in
- PART 2: Determine whether the given mechanisms are Grashof's Chain, Non- Grashof's Chain or Transition chain using Grashof s criterion. Show your solution. В A D 2. If: AB = 1 ft ВС %3D 1.8 ft CD = 2.4 ft AD = 3.5 ftCrank connecting rod in Figure-1crank and connecting rods in the mechanismare the same length; AB = BC = L andBF=FC. One end to point B, the otherfrictionless with the tip horizontally.connected to movable point Dthe stiffness of the spring is k (N/m) when =90the spring is not elongated. spring mechanismforce, R1 and R2 forces and Mstatic under the influence of momentis in balance. The principle of virtual worksstatic balance of the mechanism by applyinggiving the theta angle corresponding to the positionget a relation andthe last of your student number from the table.appropriate values according to the numberCalculate the theta angle using M= -400Nm R1=300N R2=200N L=1,3m k=500N/mA cargo ship is tied down to marine boll arts at a number of points along its length while its cargo is unloaded by a container handling crane. Each bollard is fastened to the wharf using anchor bolts. Three cables having known tension force magnitudes F, = ll0 kN.F, = 85kN.and F, 9OkNare secured to one bollard at a point A with coordinates (0.0.45 m. 0) in the x-r-: coordinate system shown in the figure part b. Each cable force is directed at an attachment point on the ship. Force F, is directed from point A to a point on the ship having coordinates (3 m, 9 m. 0) force F, is directed at a point with coordinates (6.5 m. 8.5 m. 2 m) and force F, is directed at a point with coordinates (8 m. 9 m. S m). The diameter of each anchor bolts is 4 24 mm. (a) Find the reaction forces and reaction moments at the base of the bollard. (b) Calculate the average shear stress in the anchor bolts (in the x-: plane). Assume each bolt cart ics an equal share of the total force.