R5-6. Determine the horizontal and vertical components of force that the pins A and Cexert on the two-member frame. 500 N/m -3m- 600 N/m 400 N/m
Q: P1-1. Draw a free-body diagram of the ring at A and identify each force. 30° 200 N 500 N (c)
A: To draw: The free body diagram at ring A and identify each forces. FBD: The free body diagram at A.…
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A: Consider the diagram of the figure with the forces as shown below. Here point C is taken as origin.
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Q: P4-7. Determine the force P needed to cause impending motion of the block. W = 200 N Fim-
A: Given Data: The force acting on the block is P. The coefficient of friction is µ = 0.3 The weight…
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A: Consider the horizontal and vertical reactions at support A are RAH and RAV respectively and the…
Q: *R5-8. Determine the resultant forces at pins B and C on member ABC of the four-member frame. -1.25…
A: The free-body diagram of the frame showing the reactions at joints can be sketched as follows,
Q: F5-6. Determine the force in each member of the truss and state if the members are in tension or…
A: Drawing FBD of the truss as shown below,
Q: 5. Determine the horizontal and vertical components of reaction at pins A and C of the two-member…
A: To find : The horizontal and vertical components of reaction at point A and C of the two member…
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Q: 3-10. Determine the tension developed in wires CA and CB required for equilibrium of the 10-kg…
A: Let the tension in wire AC and BC be TA and TB respectively.
Q: 5-66. Determine the location x and y of the point of application of force P so that the tension…
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Q: Determine the magnitude of the pin force at A. Assume W - 875 lb, a = 2.9 ft, b-2.4 ft, r - 6 in. I'…
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Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
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Q: R4-1. If the roller at B can sustain a maximum load of 3 kN, determine the largest magnitude of each…
A: To find out F if max load taken by roller at B is 3KN
Q: F5-1. Determine the horizontal and vertical components of reaction at the supports. Neglect the…
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Q: 5-77. The member is supported by a square rod which fits loosely through the smooth square hole of…
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Q: •5-73. Determine the force components acting on the ball- and-socket at A, the reaction at the…
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Q: F4-2. Determine the horizontal and vertical components of reaction at the pin A and the reaction on…
A: The magnitude of external acting force is F = 4 kN. Consider the horizontal component of reaction be…
Q: P1-1. Draw a free-body diagram of the ring at A and identify each force. 30 200 N 500 N
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Q: R3-7. The building slab is subjected to four parallel column loadings. Determine the equivalent…
A: Given Data: The value of force F1 = (-30 kN)k The value of force F2 = (-40 kN)k The value of force…
Q: 5-66. Determine the location x and y of the point o application of force P so that the tension…
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Q: •5-21. Determine the horizontal and vertical components of reaction at the pin A and the tension…
A: Let us draw the reaction forces Using the conditions of equilibrium…
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Q: Q2/ F-65 kN Determine the x-y and n-t components of the 65-kN force F acting on the simply- 3m B…
A: Given data: F = 65 kN Need to determine the x-y and n-t component of the force.
Q: please answer the highlighted question.
A: The force diagram at point A is shown below: Calculate the position vector of the cable AB.…
Q: P5-3. then draw the free-body diagrams of each member of the identify any two-force members, and…
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A: Since the member CD is a 2 force member, the force exerted on the member will be in the z-direction.…
Q: 5-55. Determine the horizontal and vertical components of force which pin C exerts on member ABC.…
A: Consider free body diagram of the whole frame. Reactions at roller support 'A' and hinge support…
Q: *6-76. Determine the horizontal and vertical components of force which the pins at A, B, and C exert…
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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: F4-3. The truss is supported by a pin at A and a roller at B. Determine the support reactions. 10…
A: Draw the free body diagram of the truss: Find AD: AD=EC+AE cos45°AD=2 m+4 cos45°AD=4.83 m…
Q: F5-3. Determine the force in each member of the truss and state if the members are in tension or…
A: Free body diagram of the given truss; In the above figure at joint A, roller support is there so…
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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: •6-21. Determine the largest mass m of the suspended block so that the force in any member does not…
A: By inspection: FEC=FCF=FBF=FBG=0 ∑Fx=0FDC.sin45+FDE.cos(30.25)=W0.707FDC+0.863FDE=W…
Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
A: Given Force, F = 100 N Find Calculate the reactions and the force
Q: R4-3. Determine the normal reaction at the roller A and horizontal and vertical components at pin R…
A: Draw the free body diagram of the member as shown below. We need to find the normal reactions at…
Q: F5-2. Determine the horizontal and vertical components of reaction at the pin A and the reaction on…
A: Draw the free-body diagram of member ACB.
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A: Given, W = 400 lb Consider below FBD for elbow: Here, TBCh = TBC cos 45TBDh = TBD cos 45TBCv =…
Q: Determine the horizontal and vertical components of force at pins A and D. D 2 m 0.3m A 1.5 m -1.5…
A: Given :- Determine the horizontal and vertical components of force at pins A and D.
Q: The three pin-connected members shown in the top view support a downward force of 300 N at G. If…
A: Given: Three pin connected member F=300 N Only vertical forces are supported at B, C, E and at pad…
Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
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Q: F5-7. Determine the force in members BC, CF, and FE. State if the members are in tension or…
A: Consider the section of the beam as shown below.
Q: 5-41. Determine the resultant force at pins A, B, and C on the three-member frame. S00 N 200 N/m 2 m
A: Draw the free-body diagram AC Take the moment about A…
Q: *5-40. Determine the horizontal and vertical components of force which the pins at A and B exert on…
A: Consider the free body diagram of the member AED as shown below.
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Q: Q2. Determine the stretch in each spring for equilibrium of the block of mass M. The springs are…
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- The A-36 steel wires AB and AD each have a diameter of 2 mm and the unloaded lengths of each wire are LAC = 1.60 m and LAB = LAD = 2.00 m. Determine the required diameter of wire AC so that each wire is subjectedto the same force when the 150-kg mass is suspended from the ring at A.The plate is made of steel having a density of 7850kg/m3. If the thickness of the plate is 10 mm,determine the horizontal and vertical components ofreaction at the pin A and the tension in cable BC.The three A-36 steel wires each have a diameter of 2 mm and unloaded lengths of LAC = 1.60 m and LAB = LAD = 2.00 m. Determine the force in each wire after the 150-kg mass is suspended from the ring at A.
- Find the minimum force P required for impending motion of the block up the inclined surface, given: Mblock = 65 kg, θ = 52 °, μ = 0.4W=25N, h=60mm. Find the spring force acting on the member DE and the reactions of the support at F.5-31. If the force of the smooth roller at B on the bar bender is required to be 1.5 kip, determine the horizontal and vertical components of reaction at pin A and the required magnitude of force F applied to the handle.
- Determine the magnitude of the pin force at A.Assume W = 665 lb, a = 3.7 ft, b = 2.9 ft, r = 8 in.5-34. Determine the horizontal and vertical components of reaction at the pin A and the normal force at the smooth peg B on the membThe mobile crane is symmetrically supported by two outriggers at A and B to relieve the suspension of the vehicle on which it sits and to provide extra stability. Determine the vertical reactions at each of the two outriggers as a function of boom angle when the boom is carrying a 1.2 Mg load and the crane and truck have a combined mass of 18 Mg and the boom has a mass of 2 Mg. 0 = 45°
- The spring has a stiffness of 830 N/m and is undisturbed and measures 400 mm. Determine the forces on the BC and BD cables when the spring is stretched in the position shown in the figure.The linkage is subjected to a force of P = 6 kN. Determine the angle θ for equilibrium. The spring is unstretched at θ = 60°. Neglect the mass of the links.Draw the Free-Body Diagram if the weight acts on point G