Problem 1 Detemine the reaction at A and C. Support at A is fixed, C is roller support, and B is pin- connected. 7.6 kN 10 kN/m 1.Sm 2m
Q: Determine the total support reactions at A and 8 for the truss loaded below. -5 at 3 m- 15 m- 12 AN…
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Q: Determine the force in members ac,be,ce,ei & gh of truss shown in figure f h N 4 d g 4m 4m 4m + +…
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Q: 10. Determine the total support reactions at A and B for the truss loaded below. -5 at 3 m 15 m 12…
A: The free-body diagram of the structure is given as,
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Q: Determine the support reactions on the member in 900 N figure. The collar at is fixed to the member…
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Q: For the lightweight truss which is loaded as shown 10 kN 5 kN 6 m -6 m B 4 m Dj E -6 m 3m 3 m The…
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Q: Determine the support reactions on the member in 900 N figure. The collar at A is fixed to the…
A: For the given member To determine support reactions on the member
Q: Determine the reactions at A and B on the Fink truss shown in Fig. P-355. Members CD and FG are…
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Q: Determine the reactions at the supports for the structures shown
A: given: RHA=horizontal force at ARHB=horizontal force at BRVA=vertical force at ARVB=vertical force…
Q: Determine the reactions at A and B on the Fink truss shown in FG are respectively Fig. below.…
A: Let's mark the points H, I, J as shown in below figure. Let the reaction at roller support A is…
Q: Question 1: Determine the support reactions at A and B and the reaction forces at hinge G for the…
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Q: A pin-connected truss is loaded and supported as Determine shown in Fig The reaction at support E.…
A: Given , Free body diagram of the truss is
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Q: Determine the force in each member of the 300 N truss in Fig. Q1, and state if the members are in…
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Q: 1. Determine the force in each member of the truss in Fig. Q1, and state if the members are in…
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Q: 4/3 Determine the force in each member of the loaded truss. 60° 45° B 15 W Problem 4/3
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Q: Draw a complete free-body diagram for the system. Calculate the reactions at both supports needed…
A: i) Free body diagram where, RA= Vertical reaction force at A RC= Vertical reaction force…
Q: Problem 1. A walkway from a pier to a float is supported by two rollers and connected to bollard…
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Q: Situation 2. Determine the largest tensile and compressive forces that occur in the members of the…
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Q: Problem 14: The 1.2 m wide gate hinged from C point is shown in the Figure. The weight of the gate…
A: Given Data, w= Width of the gate = 1.2 m Wgate = Weight of the gate = 80 x103 N To determine the…
Q: Determine the reactions at supports A and B and the force exerted by the pin at C on member BCD of…
A: Draw the free-body diagram of the whole frame as below. Apply the moment equilibrium equation about…
Q: This is a challenging one! 10 kN 9 kN 10 kN m A B C D 1.5 m 1.5 m 1.5 m 1.5 m 1.5 m 1.5 m Compute…
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Q: A force of 20 lb is required to pull the stopper DE Determine all forces acting on member BCD. in…
A: Given, P=20 lb Now free body diagram of the given structure, From the equilibrium sum of…
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A: given data: normal reaction force at point B=NBvertical force at point B=FVBhorizontal force at…
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Q: In each case, calculate the support reactions forces and then draw the free-body diagrams of joints…
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Q: 1. Determine the force in each member of the truss in Fig. Q1, and state if the members are in…
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Q: Example:Determine the force P needed to lift the load. Also, determine the proper placement x of the…
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Q: For the bar shown below, determine the reaction at the support using (a) for stiffness method and…
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Q: Determine pin reaction at A & C as shown in (Fig.)? 2 kN 2 60
A: Find the reactions at point A and point C
Q: 4. The truss is supported by a pin at A and a roller at B. Determine the support reactions. 10 kN|…
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Q: 30 kip 5 kip/ft
A: To determine the support reaction at B we will first draw the free body diagram.
Q: The gate (3 m x 3 m) is pinned at A and rests atop the concrete surface at B. Given the information…
A: Given: The area of the gate, A = 3x3 = 9 m^2 The specific weight of the water, ʏ = 9790 N/m^3 The…
Q: For the lightweight truss which is loaded as shown 10 kN 5 kN 6m VB -6 m A 4 m D E: 6 m 3 m 3 m…
A: From the figure : Number of members M = 7 Number of joints j = 5
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Q: Dtermne the reaction at the supports A and C of Structral Truss shown.
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Q: Determine the reactions at A and B on the Fink truss shown in Fig. below. Members CD and FG are…
A: Draw the free-body diagram of the given truss.
Q: Q 34/ Calculate the forces in members BC, BE, and EF. Solve for each force from an equilibrium…
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Q: 6 kN 30° 30° 1.5 m 4 kN A -1.5 m -1.5 m
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Q: E2 ft+l ft IC |B D 100 lb/ft 3 ft 4 ft
A: A free body diagram is a diagrammatic representation of all the forces acting on the system…
Q: Question 3 For the truss loaded and supported as shown in Figure 7, determine the forces in member…
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Q: Q.1) For the roller support atA and pin support at B, Compute the reactions at.A and B. B Answer. 40…
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Q: A35-kg disk rests on an inclined surface for which µs = 0.2. The disk is connected to a beam by pin…
A: The mass of the disk is m=35 kg. The coefficient of static friction is μs=0.2.
Q: Determine the horizontal and vertical components of the reaction at pin A and the reaction at roller…
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Q: Draw the free body diagram (P9) showing the reactions for each type of supports knowing that the…
A: Roller support only have single reaction and pin support has two reaction horizontal and vertical…
Q: Q 34/ Calculate the forces in members BC, BE, and EF. Solve for each force from an equilibrium…
A: Consider a section that cuts the member BC, BE, and EF and draw the free body diagram of the right…
Q: 100 kNm 20 kN/m A B
A: To determine the reactions.
Q: PROBLEM NO. 4. Determine the reactions at the beam shown: qo SET A SET B SET C 1.5 kips 1.25 kip/ft…
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Q: Determine the support reactions at A and E of the truss shown below Assume support A is pin and…
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- The supports used to support the truss shown below consist of rollers at A and B. The weight of the truss is negligible in relation to the applied loads. Read the following statements and then check the correct alternative. 1)the supports provide exactly the amount of links needed to keep the structure in balance 2)the corresponding reactions involve three unknowns that can be determined through equilibrium equations. 3)although vertical movement is impeded, the truss can move freely horizontally 4)the reactions involve only two unknowns and the lattice is partially linked Alternatives: a)Only 1 is correct.b)Statements 2 and 3 are correct.c)Statements 2 and 4 are correct.d)Statements 3 and 4 are correcte)No statement is correct.Statics-Two Force Members 1. Determine the force P required to maintain equilibrium of the pulley system, and the reactions at the ceiling. 2. Assume W=1.25kN 3. Show and clearly label all Free Body Diagram to determine solution.For Fz= 200 lb and all other forces zerodetermine the factor of safety of member B-C halfway between B and C. Steel, Sy = 36ksi
- 2-D PROBLEM: A spherical tank with a radius of 3.41m that has a mass of 28928.644kg was supported in the system shown. Assuming friction and the bar weight is negligible, determine the following: β: 21.774° θ: 46.452° 1. The reaction @ point D. 2. Tension @cable BE 3. The x and y-component of the reaction @ A 4. The reaction @ AA 27-mm-diameter steel [E = 190 GPa; α = 12.5×10−6/°C] bolt is used to connect two rigid parts of an assembly. The bolt length is a = 125 mm. Determine the minimum clamping force that must be provided by the bolt when T1 = 17°C so that the clamping force it exerts when T2 = 58°C is at least 1.6 kN.Show how to find the force needed to move the top block. Use reasonable data and use an equilibrium analysis to explain your answer.
- If the h0m0gen0us bar in equilibrium weighs 300N, what is the magnitude (N) of the tensi0n supp0rt at p0int C?Show how to determine (approximately) the reactions at the base of the columns of the frame shown in Fig. 7–17a. The columns have the cross-sectional areas shown in Fig. 7–17b. Use the cantilever method of analysis.PROBLEM 1: The 1500-kg beam ABC has fixed support at A and connected to beam BD by hinge at B. Beam BD has a mass of 2000 kg and supported by a cable at D. The cable is attached to the 20-cm-diameter pulley at E and pulled vertically at the other end, by tension T. Given: a = 1.5 m; b = 0.9 m; c = 1.8 m d = 0.6 m; e = 1.4 m; θ = 75°. Calculate the required tension to maintain in equilibrium. (ANSWER: 12.830KN) Calculate the moment reaction at A. (ANSWER: 28.499) Calculate the total reaction at A. (ANSWER: 22.192) Calculate the vertical reaction at E. (ANSWER: 25.223)
- Include some free body diagrams: A) Draw the components of the load in each member of the frame shown. Note that BC and AC are both cables. DC is a boom that exerts compression. Use the symbols Ax, Ay and Az for the x, y and z components respectively of force AC. Follow the same manner of representing the components of the other forces,i,e, Bx,By, Bz and Dx, Dy, Dz accordingly. (B) Set up the equilibrium equation based on summation of moments about AB. Use the symbols indicated in (A). Take the counterclockwise direction as positive. (C) Set up the equilibrium equation based on summation of moments about a vertical line passing through B (yB).PROBLEM 1: Determine the tension in each cable and the components offorce reaction at D needed to support the load. Required: 1. Find Dx (Answer: 1039.230 N), Dy (Answer: 0 N) and Dz (Answer: 0 N) 2. Find Tension AB (Answer: 467.667 N) and Tension (Answer: AC 673.808)The system below is in balance. Assume that the maximum traction on the AB bar is 132.9 N, on the AC bar 263.8 N. Admit that a weight of 310 N is deposited in the box? For this scenario, select an alternative below that makes the correct prediction about this physical scenario: Mark the correct alternative 1)The system will remain in balance, because the maximum load that the box can withstand is approximately 355 N 2) The system will collapse, as the maximum load that the box can support is approximately 300 N; 3) The system will collapse, as the maximum load that the box can support is approximately 280 N; 4) The system will collapse, as the maximum load that the box can support is approximately 250 N; 5) The system will collapse, as the maximum load that the box can support is approximately 220 N;