Find the support reactions and joint force of the construction, shown on the figure, if: q3D24 kN/m, M=10 kNm and L=3 m. .K M 2L 2L
Q: 1 Three identical bars of lengths / are arranged and supported in a horizontal plane, as shown in…
A:
Q: Calculate Tension BD if P = 100 kN. ... 1m 2.5 m D 250 N P -1.5 m- 2 m 1.5 m Use the editor to…
A: Find the tension in BD.
Q: The cantilever truss in the figure is hinged at D and E. Find the force in member AC. 1000 Ib 60 60•…
A:
Q: In the figure below, a pulley can pull a 1-ton load from rest to 3 m/s upwards at 2 seconds. AB and…
A: Given: The load, W = 1 ton The speed, v = 3 m/s The time, t = 2 s The compressive stress, σ = 140…
Q: Consider the truss shown in (Figure 1). Suppose that F = 60 kN and F2 = 30 kN. !! Figure < 1 of 1 50…
A:
Q: Two identical trusses support a load of 100 N as shown in the figure. The length of each truss is…
A: Given:
Q: B Support reactions will be found in the gerber beam whose loading condition is given in the figure.…
A:
Q: Find the reactions by drawing a free body diagram and then draw the shear force diagram. 30 kN 50 kN…
A:
Q: The BC rod, which is assumed to be rigid and massless in Figure, stands horizontally with the help…
A: Draw the deflection diagram. From the deflection diagram, the relation between deflections is,
Q: The cantilever truss in the figure is hinged at D and E. Find the force in member BD. 1000 1b 60 60…
A:
Q: For the rigid frames shown in Figure, determine the displacements and rotations of the nodes, the…
A: Given: The elastic modulus, E = 210 GPa The cross-sectional area, A = 1 x 10-2 m^2 The moment of…
Q: 1.5 kN/m Given the figure at the right, solve for the support reactions. 10kN.m 30 3KN 14KN 1.2m…
A:
Q: Member AB (helical spring) and Member AC (axial rod) are carrying a weight at point A. Member AB has…
A:
Q: The BC and DE bars in the figure are made of steel (Eç = 200GPA), each of which has a width of 12 mm…
A:
Q: Two gondolas on a ski lift are locked in the position shown in the figure while repairs are being…
A:
Q: 200N/m 30 -3 m 800 N -3 m →3 m
A: GIVEN :- Point load : P=800Nangle: θ=30°length of rod : L=9 muniformally varying load: Luvl=3m ,…
Q: Two gondolas on a ski lift are locked in the postion show in the figure while repairs are being made…
A: Given data as per question WC=650 lbDAB=12 ftDBC=70 ftDCD=20ftΔB=3.9 ftΔC=7.1 ftL=100…
Q: A F F W2 d A Section A-A The following figure shows the free-body diagram of a connecting-link…
A: FROM DATA BOOK, Sut=64kpsi Sy=54kpsi a=2.7 b=-0.265 kb=1 kc=0.85 endurance limit, Se=0.5Sut…
Q: To draw the internal normal force diagram, it is important to determine the internal normal force at…
A: Find internal force at point A Given data:- P1=4.5 kips P2=8 kips
Q: The cantilever truss in the figure is hinged at D and E. Find the force in member CE. 1000 Ib 60 60°…
A:
Q: The vertical reaction in the hinged support shown in the figure is Blank 1 N. 200 N 200 N D E D 2 m…
A:
Q: ka 2 ki P Rigid bar k3 for the system shown in the figure, which of the following statements are…
A: from the figure , we see that , point 1,2,3,4 are rigid on the wall , so they can't move while…
Q: The slender plank shown in figure is held in equilibrium by the action of the force Fp. Find the…
A: Given, m = 200 kg
Q: A 400 N gas sign hangs from the end of a uniform strut BC. The strut is 4 m long and weighs 600 N.…
A: FBD of given figure First we calculate the angle tanθ=34θ=tan-134θ=36.86 Now consider clockwise…
Q: Q.1) A plane truss is loaded as shown in the figure. What is magnitude of force in the member CD and…
A: use method of section cut a section xx Take moment about point C 500*20 +100*10 = FBD*203 FBD =…
Q: Clause 3. A load of 100 kg acts on the structure as shown in the figure. Find the force acting on…
A:
Q: In figure, if the floating ball radius is blä 5 0.5 m and its density= 2000 N/m3, the * ? cable…
A:
Q: PROBLEM I Find the support reactions and joint force of the construction, shown on the figure, if P…
A:
Q: Q2: The horizontal force NK 5 at the end D is acting on the structure in Figure (2). Find the effect…
A:
Q: A frame structure is shown in the following Figure. Members ABC and BD are pin jointed to supports…
A:
Q: 1-For the figure below take M number of you and find the reactions? 2-ls the body balanced or not? 3…
A:
Q: Q.3) For the truss shown in the figure, the forces F1 and F2are 9 kN and 3 kN, respectively. The…
A:
Q: A mechanism carries a constant load P applied to the seat as E shown. Calculate the forces, in…
A: Forces in mechanisms can be calculated by balancing them in particular directions. The sum of all…
Q: The truss shown in the figure is applied with force P = 5 KN. Which of following nearly gives the…
A:
Q: The cantilever truss in the figure is hinged at D and E. Find the force in member AB. 1000 Ib 60 60…
A:
Q: b) For the truss in the figure below, determine the zero-force members and give a short explanation…
A:
Q: To draw the internal normal force diagram, it is important to determine the internal normal force at…
A:
Q: Find the support reactions and joint force of the construction. shown on the figure, if P12 kN, 4 q…
A:
Q: Q.4] Find the forces in the members of the bridge truss shown below. 5KW 5KN A k B k 12 m 8m с 10 KN…
A:
Q: Q.4) Consider a truss PQR loaded at P with a force F as shown in the figure. The tension in the…
A:
Q: Consider the truss as shown in the figure and parameter table. The maximum allowable tensile force…
A:
Q: Determine the force in members BC, GA, and BG of the truss shown in the figure below. Let P = 175…
A: Find the force in member BC,GA and BG
Q: The cantilever truss in the figure is hinged at D and E. Find the force in member AB. 1000 Ib 60 60…
A:
Q: giew. given in the figure below, is (A) 27 kN (Tensile) (B) 15 kN (Compressive) C) 20 kN…
A:
Q: For the given figure below, the beam is 57.4 m long. It has a rectangular cross-section area with…
A: Consider the diagram as shown below for the given beam. Here Fs is the spring force.
Q: PROBLEM 1 Find the support reactions and joint force of the construction, shown on the figure, if:…
A:
Q: Consider the set-up shown. It has rocker at A, which resists downward displacement, but allows…
A:
Q: Consider the truss shown in the figure, built from three struts attached by three pins. The truss…
A:
please accept
Step by step
Solved in 2 steps with 2 images
- Solve the preceding problem for the following data: b = 6 in., b = 10 in, L = 110 ft, tan a = 1/3, and q = 325 lb/ft.Frame ABC has a moment release just left of joint B. Find axial force N, shear force V, and moment M at the top of column AB. Write variables N, V, and M in terms of variables P and L.Space Frame ABC is clamped at A, except it is free to rotate at A about the x and y axes. Cables DC and EC support the frame at C. Force Py= - 50 lb is applied at the mid-span of AS, and a concentrated moment Mx= -20 in-lb acts at joint B. (a) Find reactions at support A. (b) Find cable tension Forces.
- A 150-lb rigid bar AB. with friction less rollers al each end. is held in the position shown in the figure by a continuous cable CAD. The cable is pinned at C and D and runs over a pulley at A. (a) Find reactions at supports A and B. (b) Find the force in the cable.Space frame A BCD is clamped at A, except it is Free to translate in the .v direction. There is also a roller support at D, which is normal to line CDE. A triangularly distributed Force with peak intensity q0 = 75 N/m acts along AB in the positive - direction. Forces Px= 60 N and Pz = = 45 N are applied at joint C, and a concentrated moment My = 120 N . m acts at the mid-span of member BC. (a) Find reactions at supports A and I). (b) Find internal stress resultants N. E’I T, and .11 at the mid-height of segment AB.A soccer goal is subjected to gravity loads (in the - z direction, w = 73 N/m for DG, BG, and BC; w = 29 N/m for all other members; see figure) and a force F = 200 N applied eccentrically at the mid-height of member DG. Find reactions at sup ports C, D, and H.
- A 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.RAX M A 0 F RAY Enter FAP: kN F₂ The figure above is a pin-joint frame with angle = 30° between members AF and AB. (Note that the diagram is not to scale). Given that the reaction forces at the support A are given by RAX = 10kN and RAY = 25kN, calculate the forces in members AB and AF, denoted by FAB and FAP respectively. Enter your answers in kilonewtons (kN) correct to 2 decimal places in the boxes below: Enter FAB KN D RDY4 m 5m 4 m B 4 m 80 kN 60 kN find the forces in members (BC,BE and DE) ? T or C p 10:36
- A transmission tower (a truss) for supporting electric wires is shown. The load of wire at D is shown as force F1 at an angle of a and the load of wire at A is shown as force F2 at an angle of B. Using the values given in the table below: F1 (N) F: (N) a (deg) B (deg) w (m) h (m) Value 150 70 30 60 2 a) Find the reaction forces at supports Y and Z. b) Determine the forces supported by members DO, DM, SV, and UX and specify whether the member is in Tension or Compression. M Q B F1 F2 T W X h2.) The plate is supported by a pin in a smooth slot at B. What are the reactions at the supports? [Answer: Ax= 3.46 (right), Ay = 2 kN (down), B = 4 kN] 2 kN-m A 2 m 6 kN-m B 1/260 60°Rope BCA passes through a pulley at point C and supports a crate at point A. Rope segment CD supports the pulley and is attached to an eye anchor embedded in a wall. Rope segment BC creates an angle of ¢ = 64.0 ° with the floor and rope segment CD creates an angle 0 with the horizontal. If both ropes BCA and CD can support a maximum tensile force Tmaz = 165 lb , what is the maximum weight Wmax of the crate that the system can support? What is the angle 0 required for D equilibrium? Express your answers numerically in pounds and degrees to three significant figures separated by a comma. • View Available Hint(s) vec ? Wmax, 0 = lb, degrees