Ay=0 Az= 7.1
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Ay=0
Az= 7.1
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- The tower crane is used to lift the 1.8-ton load upwards at a constant speed. The mass center of the 1.4-ton beam BD is at G1, the mass center of the 0.5-ton beam BC is at G2 and the mass center of the 6.8-ton counterweight C is at G3. A) Determine the moment of force exerted by the load, counterweight and beams together around point A and point B. Let counterclockwise rotation be a plus.Express the answers with three value digits, and separate the force moments for point A and point B with a comma. B) To get the correct answer to the calculation in the previous task, should one assume that the tower crane is a rigid body? (choose the right answer) - Yes, but it is always a bad approximation in reality: all bodies are deformable (regardless of size)- Yes, because it is a good approximation, it would only be bad if the load was so heavy that the crane bent significantly- It does not matter, you can assume it or not, you always get the same mathematical equations no matter what you…The ideal spring of constant k=2.6kN/m is attached to the fitted at point A and the end fitted at point B, as shown. The spring is unstretched when theta(A) and theta(B) are both zero. If the fitted is rotated 15⁰ clockwise and the end fitting is rotated 30⁰ counterclockwise, determine the vector expression for the spring force F. Determine distance C so that the moment the spring force makes about the Z axis is equal to 10.82 N.mthe frame (image 1) has four applied forces and one applied couple moment. replace this system by an equivalent resulting force and couple moment acting at point B (image 2) d1 = 0.970m , d2 = 1.09m, d3 = 0.550m, d4 = 2.03m, F1 = 510N, F2 = 309N, F3 = 510N, F4 = 402N, MA = 1505 N•m Find FRx, FRy, (MR)B
- 1. the tow truck's front wheels will belifted off the ground if the moment of the load W about the rear axle exceeds the moment of 3000N weight of the truck. Determine the largest w that may be safely applied 2. the flat plate shown in the figure is acted on by the three couples. replace the three couples with two forces, one acting along the line OPThe left and right strings have a mass of 0.01 kg, the middle string has a mass of 0.02 kg. Both theta and beta angles are 40 degrees. Show the calculations used to determine the horizontal and vertical components of the tension forces connected to the center string.Q1-Consider the below hip joint prosthesis. When standing symmetrically on both feet, a joint reaction force of F =350N is acting at the femoral head (point A) due to the body weight of the patient. The geometric parameters of the prosthesis are l1= 30 mm, l2= 40 mm, θ1= 35°, θ2= 100°. Determine the moments generated by force F about points C on the prosthesis when force F applies along line AB.
- The homogeneous bars have a mass as follows: bar AC has a mass of 7 kg, bar ABhas a mass of 10 kg, and rod BD has a mass of 2 kg. In the drawn position, therod AC has an angular velocity of 4 rad/s and an angular acceleration of 2 rad/s2, both clockwise.Determine the magnitude of the moment M acting on the member AC. Give all the equations neededto solve this question without calculating itThe beam of negligible weight is supported horizontally by two springs. If the beam is horizontal and the springs are unstretched when the load is removed, determine the angle of tilt of the beam when the load is applied. Take x = 659 N/m, y = 1.5 kN/m, and z = 1.6 kN/m.One of the ends of the rigid rod AB of mass m and length L = 4R is attached to the edge of the radius R disc by a pin. The other end of the rod can slide freely on the ground without friction. A motor connected to the center of the disk at point O rotates the disk at a constant angular velocity D. Find all the forces acting on the rod at the moment θ = 30 degrees and the direction OB is vertical at the moment shown in the figure.
- Please answer this NEATLY, COMPLETELY, and CORRECTLY for an UPVOTE. *I already have the answers, I just need a neat and complete solution for this. [ANSWERS]-F= 2842.7406 lb-θR= 32.5094° N of E-FV= 2312.7721 lb, 49.4086° wrt y-axis Determine the value of the force F shown, if the resultant of the five forces acting on particle O has a magnitude of 2.8 kips. What is the direction R of the resultant force? If the resultant force is to be resolved into its components along the positive x-axis and a certain v-axis, the component along the x-axis is 605 lb. What is the magnitude of the other component? Also determine the angle the v-axis makes with the y-axis?Which these statements are true i) The direction of the moment vector is in the plane containing the force and radius vectors. ii) A force lower than the static limiting frictional force could maintain a body in motion. iii) The vector definition of moment of a force (M ), is M =F x RDetermine the couple-vector that is equivalent to thethree couples acting on the gear box, given that C1 = 200 lb.in, C2 = 140 lb.in, C3= 220 lb.in