Since the force on the wheel is F = 3.4 kN, as in the figure, calculate the joint force FA and the spring force FB.
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- Since the force on the wheel is F = 3.4 kN, as in the figure, calculate the joint force FA and the spring force FB- +100 650 009 200 C B AFor the same question, the M25 Screw will be used when pressing the Nut Wheel onto the shaft. Assuming that the force that the nut needs to suppress is Fçak=1218 kgf (it was found in the previous question, but we don't use it), what should the minimum NUT HEIGHT be in mm to create this force safely? (Screw and Nut's surface safety pressure Pem=45 N/mm2 Screw base diameter d1= 21.5 mm. (Calculate the pitch (h=?) according to the given ones, considering that metric screw is used!)Q1: The arrangement of a transmission brake is shown in the figure. The arms are pivoted at O and, when force is applied at the end of the hand lever, the screw AB will rotate. The left-and right- hand threads working in nuts on the ends of the arms will move the arms together and thus apply the brake actuating force equally. A B 12cm The drum is 17.75cm diameter, and the angle subtended by each block is 90°. the friction material lining width is 4cm. Assuming a coefficient of friction for the braking surfaces that is equal to 0.30 Determine the force required by the screw AB to set the brake torque on the drum equal to 200 N-m. 17 75cm 12cm 46 35cm Torqueleft= TorqueRight= 97.40 N.m 6 35cm 102.60 N.m
- Determine the horizontal and vertical components of force at pin A. O Ax=-46.7 lb, Ay = 45.0 lb O Ax = 13.3 lb, Ay = 10.0 lb O Ax=-53.3 lb, Ay = 40.0 lb O Ax= -106.7 lb, Ay = 80.0 lb 6 ft -4 ft- 0.5 ft 80 1b4 4 ft-The load on the truss is L=7.2 kN. What is the force in rod AC?Symmetrical shoes will not create moment around the joint The position of the pads with an angle of 90° on the brake where it is placed in the figure is shown in the figure. The brake mechanism is fixed to the ground by the support plate. The disc in the figure rotates clockwise and the friction coefficient of the pads is accepted as 0.491. If a force of 565 N is applied on the arm from the point shown on the figure;a) What is the dimension e shown in the figure so that the shoe does not create a moment around the joint?how much should it be? Calculate.b) Draw free body diagrams of ABC opening lever and both lining levers.c) What is the normal force acting on each pad? How much braking torqueoccurs? calculate
- An ACME-thread power screw is considered. The coefficient of friction of the thread is mu. The external load on the screw is F. d = 1.75; % (in) major diameter | = 0.25; % (in) screw lead mu = 0.2; % coefficient of friction for thread F = 2000; % (lb) external load on the screw Find: 2.4 the moment required for lowering the load (Ib in)I need correct answer At stationary the tension in pulley 120N. Find tension in each side and Power trans when belt is on the point of slipping on smaller wheel. The wheel is 250mm diameter and fac F Friction 0.32. The angle of Lap 165⁰. The wheel speed 1200 C/min.touch &O O166% 00:27 MENG250 - Practice Assign... Problem 2-15 Determine the design angle ø (0° < ø< 90°) between struts AB and AC so that the 400-lb horizontal force has a component of 500 lb directed from A towards C. What is the component of force acting along member AB? Take 0 = 40°. 400 lb A te B
- PROBLEM 2 Solved force P so the box will rest in the position as shown in figure P-310. Assume the inclined plane is friction less surface. Given theta is 60 degrees. w = 300 lb MATHalino.com 30° Figure P-310 and P-311The cable carrying three 400-N loads has a sag at C of hC = 14 m. Calculate the following: 26.1 The magnitude of the tensile force in segment AB is Blank 1 N. 26.2 The magnitude of the tensile force in segment BC is Blank 2 N. 26.3 The magnitude of the tensile force in segment CD is Blank 3 N. 26.4 The magnitude of the tensile force in segment DE is Blank 4 N.The linkage shown is used in a vehicle suspension system. Find the forces indicated below when a static force of F = 820 lb is applied to the tire at point C at an angle of 0 = 22° as shown. Assume the connection of the wheel to member AB is rigid. hs hy hi F BY NC SA W4. W, Ws 2013 Michael Swanbom Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value Variable Value hi 10 in Wi 8.8 in h2 15.6 in W2 5.6 in h3 18.1 in W3 10.8 in h4 10.9 in WĄ 7.4 in h5 4.9 in W5 9.3 in For all answers, take x as positive to the right and y as positive upward. At point B, member AB exerts a force of B = j lbs on member BHE. At point A, member AD exerts a force of A + j lbs on member AB. At point H, shock GH exerts a force of H = i + i lbs on member ВНЕ. At point E, the magnitude of the force exerted on the car body by member BHE is lbs. At point D, the magnitude of the force exerted on the car body by member AD is lbs. At point G, the…