Question 3: the bearing response forces at point A and the pulling force acting on the BC cable (T) find the intensity
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A: Solution: As A and B are part of the same structure so there will be no reaction. RA=0RB=0
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Q: Refer to Sample Problem 2/1 P:29, it is required to find the resultant R of the three forces F1, F2,…
A: F1=600 N ,θ1=35° with horizontalF2=500 N,tanθ2=34θ2=36.86°F3=800 N and tanθ3=.4.2=2θ3=63.43°
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Q: Q4: Consider the two vectors A= 7i-7j)m, B= (-14i-5j)m. Calculate: (a) A+B (b) A-B (c) |A+B[ (d)…
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Q: A 50.0N weight uniform 4 metre long beam is hanging from a cord held out at a 30° angle as shown.…
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- 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.For the system illustrated in the figure, determine the value of "h" that puts the system un equilibrium CHOICES 15.5 mm 12.6 mm 11.1 mm 19.5 mmA 50.0N weight uniform 4 metre long beam is hanging from a cord held out at a 30° angle as shown. And unknown weight not shown in the diagram is also hanging 1 m from the X on the diagram. A) The tension in the cord is measured with a spring balance and found to be 130 N. find the counter clockwise torque from the cord about the X shown in the diagram. B) balance torques to find the torque from the unknown weight that is not shown in the diagram Hint: add the unknown weight to the diagram and do not forget to include the weight of the beam in your calculation
- Three identical 8.60-kg masses are hung by three identical springs, as shown in the figure. (Figure 1) Each spring has a force constant of 5.90 kN/m and was 11.0 cm long before any masses were attached to it. Make a free-body diagram for the top mass. Draw the vectors starting at the black dot at the center of the top mass.The L-shaped arm ABC shown in the Fig.3 lies in a vertical plane and pivots about a horizontal pin at A. The arm has constant cross-sectional area and total weight W.A vertical spring of stiffness k supports the arm at point B. Obtain a formula for the elongation of the spring due to the weight of the arm. Then use the following numerical data for calculating the value of spring elongation. (k= 20kN/m, b=300mmA 27‑kg sing is attached to the right end of a horizontal beam (the beam's mass m = 7.7 kg). The left end of the beam is mounted into a wall and it's right end is supported by a string which makes an angle θ = 32° with the beam, see the picture below. Find the magnitude of the tension in the string. 1. The tension in the string, T Find the reaction force exerted by the wall on the beam. 2. The x component of the wall's reaction force, Rx = 3. The y component of the wall's reaction force, Ry =
- A sign for a pizza restaurant hangs from a 2.60-m long rod extended out from a building. A cable, attached to the building, is attached to the rod at a point that is 2.10 m from the hidge. (See the figure.) The mass of the rod is 3.20 kg. The mass of the sign is 7.10 kg. The angle between the building and the rod is 69.0 degrees. The angle between the cable and the horizontal is 36.0 degrees. The tension in the cable is 117.5 N. What is the vertical component of the reaction force from then hinge on the rod?The system in the figure consists of AB copper bars with a diameter of 30 mm and BC aluminum bars with a diameter of 22 mm.The modulus of elasticity of copper is 110 GPa and that of aluminum is 75 GPa. Find the displacement of the point C with respect to the given.The dimensions are of the graph are d1 = 7 cm , L1 = 6 m , d2 = 4.2 cm , and L2 = 5 m with applied loads F1 = 130 kN and F2 = 60 kN . The modulus of elasticity is E = 80 GPa . Use the following steps to find the deflection at point D. Point B is halfway between points A and C. What is the reaction force at A? Let a positive reaction force be to the right.
- A sign for a pizza restaurant hangs from a 2.60-m long rod extended out from a building. A cable, attached to the building, is attached to the rod at a point that is 2.10 m from the hidge. (See the figure.)The mass of the rod is 5.90 kg. The mass of the sign is 9.40 kg. The angle between the building and the rod is 74.0 degrees. The angle between the cable and the horizontal is 31.0 degrees.What is the torque on the rod due to the weight of the rod alone? [Take the axis to be at the hinge.]The boom has a negligible weight, but has sufficient strength to support the 1000N load. Find the force in the boomBC. Refer to Figure d. a. 1577.50N c. 1154.70N b. 2,000N d. 577.35NFind the change in length between the points A and D on the bar given in the figure E= 4.10 5kN/cm2