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Using the simply supported beam from Prob. 8.24, the moment along the beam,
Use a numerical method to find the point
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- In the given figure below, a tube was supported at A and E by with a ball and socket and a wire at D connected to F. Determine the following given the Force F is equal to 656.46 N. X_b : 218.078 mm X_c : 451.531 mm Y_a : 215.719 mm Z_e : 163.433 mm Z_f : 463.933 mm 1. Determine the x, y and z-component of Vector DF 2. Determine the moment experienced by the system assuming that there is no wire support 3. Determine the x, y and z-component of the moment experienced by the system assuming that there is no wire support 4. Determine the Tension experienced by wire DF 5. Determine the x, y and z-component of the Tension experienced by wire DF.arrow_forward4.71 a)The magnitude of the moment induce by the load about the Line-EF is _____ kN*mm. b) The direction of the moment induce by the load about the Line-EF is _____ kN*mm. options: 1 +x 2 -x 3 +y 4 -y 5 +z 6 -z c)The magnitude of the moment induce by the load about the Line-CD is _____ kN*mm. d) The direction of the moment induce by the load about the Line-CD is _____ kN*mm. options: 1 +x 2 -x 3 +y 4 -y 5 +z 6 -zarrow_forwardNeglecting transverse shear effect show the maximum moments and determine?arrow_forward
- The line of action of force F passes through points A and D. Find the component of the moment of force F about axis BC, given: F = 300 N, AX = 7 m, AY = 9 m, AZ = 9 m, BX = 6 m, BY = 6 m, BZ = 6 m, CX = 8 m, CY = 10 m, CZ = 9 m, DX = 4 m, DY = 5 m, DZ = 4 marrow_forwardA cantilever beam (with a clamp at x=0 and free at x=L, where L is the length of the beam) is modelled using two flexural elements. A moment, M, is applied at the free end. Which of the following describes the vector of external forces? Note that no other external forces are applied, and the degrees of freedom are defined in the usual order. f = [0 0 0 0 M 0]T f = [0 0 M 0]T f = [0 0 0 0 0 M]T f = [0 0 0 M]T f = [M 0 0 0]T f = [0 M 0 0]Tarrow_forwardConsidering a uniform beam of 1 m long simply supported at both ends, theBending moment is given by the following relation:arrow_forward
- Draw the shear diagram for the beam. Set P = 800 lb, a = 5 ft, L = 12 ft. Draw the moment diagram for the beam. Set P = 800 lb, a = 5 ft, L = 12 ft.arrow_forwardAs shown, a member is fixed at the origin, point O, and has two applied forces, F1 and F2 , applied at the free end, point B. (Figure 3) The forces are given by F1=115 N i−150 N j+65 N k and F2 has magnitude 185 N and direction angles \alpha =142.0∘ , \beta =70.0∘ , and \gamma =59.2∘ . The dimensions are x1 = 1.40 m , y1 = 1.85 m , and z1 = 1.10 m . What is the moment about the origin due to the applied forces? Express the individual components of the Cartesian vector to three significant figures, separated by commas.arrow_forwardConsider a positive sign convention for counterclockwise rotation and a negative sign convention for clockwise rotation. If the line of action of a force, F, exerted on an object intersects the moment center, O, then the moment of F about point O isarrow_forward
- The critical section of a beam occurs where the moment is a minimum. True Falsearrow_forwardThe throttle-control lever OA rotates in the range 0≤θ≤90∘. An internal torsional return spring exerts a restoring moment about O given by M = K(θ+π/4), where K = 670 N·mm/rad and θ is in radians. Determine and plot as a function of θ the tension T required to make the net moment about O zero. The effects of the radius of the pulley at B are negligible. After you have completed the plot, answer the questions. Assume r = 60 mm, d = 150 mm.arrow_forwardThe image below shows a beam subject to two couples, F1=650N and F2=810N. The dimensions are x1=1.50 m, x2=1.30 m, h=0.17 m, θ=41∘, and ϕ=30. What is the net moment on the beam due to the two couples?arrow_forward
Principles of Heat Transfer (Activate Learning wi...Mechanical EngineeringISBN:9781305387102Author:Kreith, Frank; Manglik, Raj M.Publisher:Cengage Learning