C4-1. Draw the free-body diagram of the uniform trash bucket which has a significant weight. It is pinned at A and rests aganist the smooth horizontal member at B. Show your result in side view. Label any necessary dimensions.
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A: Mass of sphere, m=45 kgInclination angle of A, θ=42o
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Q: P4-1. Draw the free-body diagram of object. 400 N/m -3 m -3m-
A: Given, UVL intensity = 400 N/m Converting UVL into Point Load = =12×Load×Length= 12×400×6=1200 N/m…
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Q: P4-1. Draw the free-body diagram of object. 200 N/m в -2 m
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Q: Problem (3) F3-5. If the mass of cylinder C is 40 kg, determine the mass of cylinder A in order to…
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Q: F3-5. If the mass of cylinder C is 40 kg, determine the mass of cylinder A in order to hold the…
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Q: 3-19. Determine the unstretched length of DB to hold the 40-kg crate in the position shown. Take k =…
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Q: F3-5. If the mass of cylinder C is 40 kg. determine the mass of cylinder A in order to hold the…
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Q: B – 2.4 m -1.5m-l 0,6m 2m Im
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Q: 3-19. Determine the unstretched length of DB to hold the 40-kg crate in the position shown. Take k…
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- The figure models the handle of the water cock described in Prob. 4.9. Draw the FBD of the handle, neglecting its weight. Count the unknowns.solve with free body diagramA wheel of 10 in. radius carries a load of 1000 lb. a. Determine the horizontal force P applied at the center which is necessary to start the wheel over the 5 in. block. Also find the reaction at the block. b. If the force P may be inclined at any angle with the horizontal, determine the minimum value of P to start the wheel over the block; the angle P makes with the horizontal; and the reaction at the block.
- is formed in a quar- C6-67 The lever shown in Fig. ter circular arc of radius 20 in. Plot A and B, the magnitude of the pin force at A and the force on the smooth support B, as a function of e (0° s 0s 85°), the angle at which the support is located. 125 lb B A 20 in.The weight of the limb is W=15 lbs.The contact of foot with the ground can be modeled as a pin/hinge here. Determine the reaction force of the ground and the reaction at the knee joint and its direction/angle θ. Note: use the thee force member condition to find the angle of FK.Q4.As it’s been shown in the below figure,a person is using an exercise machine. Points A and B correspond to the shoulder and elbow joints, respectively. Relative to the person, the upper arm (AB) is extended toward the left (x-direction) and the lower arm (BC) is extended forward (z-direction). At this instant, the person is holding a handle that is connected by a cable to a suspending weight. The weight applies an upward (in the y-direction) force with magnitude F on the arm at point C. The lengths of the upper arm and lower arm are AB̅̅̅̅= 20cm and BC̅̅̅̅= 25cm, respectively, and the magnitude of the applied force is F = 400 N.Determine the components of reaction developed at the shoulder joint A When the…The wheels, axle, and handles of a wheelbarrow W=62N. The load chamber and its contents weigh Wl=575N. The drawing chose leave to Forsyth and different wheelbarrow designs to support the wheelbarrow and equilibrium the man's hands apply a force to the handles that is directly vertically upward. consider the rotational axis at the point where the tire contacts the ground, directed perpendicular to the plane of the paper. Find the magnitude of the Man's force for both designs
- Identify the zero force members (if any) in the trus P 4 m -3mFREE-BODY DIAGRAM EXERCISES 3/A In each of the five following examples, the body to be isolated is shown in the left-hand diagram, and an in- complete free-body diagram (FBD) of the isolated body is shown on the right. Add whatever forces are nec- essary in each case to form a complete free-body dia- gram. The weights of the bodies are negligible unless otherwise indicated. Dimensions and numerical values are omitted for simplicity. Body Incomplete FBD 1. Bell crank supporting mass m with pin support at A. mg m Flexible cable A Pull P P. 2. Control lever applying torque to shaft at 0. Fo 3. Boom OA, of negligible mass compared with mass m. Boom hinged at O and supported by hoisting cable at B. B m mg 4. Uniform crate of mass m leaning against smooth vertical wall and supported on a rough horizontal surface. A mg B B 5. Loaded bracket supported by pin connection at A and fixed pin in smooth slot at B. Load L Figure 3/A Page5Solve with complete Free Body Diagram.
- The homogeneous plate of weight W is supported by a ball-and-socket joint at D and three wires. Draw the FBD of the plate and count the unknowns.The linkage is made of two homogenous bars of weights shown in the figure. Determine the horizontal force P required to hold the linkage in the position shown.Draw the FBD for the bar described in Prob. 5.1 if the bar is homogeneous of mass 50 kg. Count the unknowns.