*4-36. If the load has a weight of 20 kN, determine thex, y, z components of reaction at the ball-and-socket joint A and the tension in each of the wires.
Q: •5-21. Determine the horizontal and vertical components of reaction at the pin A and the tension…
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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: 5-34. Determine the force P required to hold the 150-kg crate in equilibrium.
A: Given data: Mass of the crate is m=150 kg The free body diagram of pully A: Applying the equation…
Q: 5-27. As an airplane's brakes are applied, the nose wheel exerts two forces on the end of the…
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Q: 5-34. Determine the horizontal and vertical components of reaction at the pin A and the normal force…
A: Given data F = 600 N
Q: •5-21. Determine the horizontal and vertical components of reaction at the pin A and the tension…
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Q: F4-8. Determine the reactions at the roller support A, the ball-and-socket joint D, and the tension…
A: Apply equilibrium condition along the direction z: Where, FZ is the force along the direction of Z.…
Q: R5-8. Determine the x and z components of reaction at the journal bearing A and the tension in cords…
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Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
A: Convert the uniformly varying load to a point load, P=12×200 N/m×4.5 m=450 N Draw a free-body…
Q: 5-27. As an airplane's brakes are applied, the nose wheel exerts two forces on the end of the…
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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: *4-20. The 1500-N electrical transformer with center of gravity at G is supported by a pin at A and…
A: Draw the F.B.D of the given transformer.
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: F3-7. Determine the magnitude of forces F,, F, F3, so that the particle is held in equilibrium.
A: Given data, Force F1 in vector form, F→1=F1×45j^+F1×35k^ Force F2 in vector form, F→2=-F2i^ Force F3…
Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
A: We have to find horizontal and vertical components of reaction
Q: F5-16. Determine the horizontal and vertical components of reaction at pin C. 400 N -2 m- 800 N m 1…
A: GivenABC is a frame with A and C points pinnedPoint load = 400 NMoment = 800 N-mTo findCx=?Cy= ?…
Q: *5-12. If the maximum force that any member can support is 4 kN in tension and 3 kN in compression,…
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Q: *5-44. The 10-kg uniform rod is pinned at end A. If it is also subjected to a couple moment of 50 N…
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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: Given load=60Kn Moment=30kn-m FBD of design
Q: Determine the reactions at the pin support A and the roller B. Take F = 6.5 kN and M = 3.5 kN.m %3!…
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Q: 5-27. As an airplane's brakes are applied, the nose wheel exerts two forces on the end of the…
A: Given Two forces = 2 kN and 6 kN Find The reaction and Force
Q: F5-1. Determine the horizontal and vertical components of reaction at the supports. Neglect the…
A: Draw a free-body diagram of the beam. Apply equilibrium equation for the moment about point A,…
Q: *4-24. Determine the distance d for placement of the load P for equilibrium of the smooth bar when…
A: Taking Free body diagram of the bar, ∑Vertical forces = 0P-R×cos(θ)=0P=R×cos(θ)∑Moment about…
Q: 4-30. Determine the tension in cables BD and CD and the x, y, z components of reaction at the…
A: The load vector, The tension in cable BD,
Q: 4-34. If the cable can be subjected to a maximum tension of 1.5 kN, determine the maximum force F…
A: → Consider the free body diagarm of the given figure,
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…
Q: *4-36. The bar AB is supported by two smooth collars. At A the connection is a ball-and-socket joint…
A: Given:- According to the statementAt point A; ball and socket jointA→=Axi^+Ayj^+Azk^At point B;…
Q: 4-37. The rod assembly is used to support the 1.25-kN cylinder. Determine the components of reaction…
A: Since the member CD is a 2 force member, the force exerted on the member will be in the z-direction.…
Q: The 10-kg uniform rod is pinned at end A. If it is also subjected to a couple moment of 50 N · m,…
A: First of all drawing Free body diagam of given fig.
Q: 4-17 If rope BC will fail when the tension becomes 50 kN, determine the greatest vertical load F…
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Q: 4-35. The uniform concrete slab has a mass of 2400 kg. Determine the tension in each of the three…
A: As given the slab is in equilibrium, the net moment on the slab will be zero,…
Q: 5-34. Determine the horizontal and vertical components of reaction at the pin A and the normal force…
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Q: F4-9. The rod is supported by smooth journal bearings at A, B, and C. Determine the reactions at…
A: To determine: Reactions at the supports A,B & C Let the reactions at A be RAx &…
Q: R4-6. A vertical force of 400 N acts on the crankshaft. Determine the horizontal equilibrium force P…
A: Apply static equilibrium equation…
Q: 4-23. If d - 1 m, and e- 30, determine the normal reaction at the smooth supports and the required…
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Q: Would you please draw and explain all the free-body diagrams as well?
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Q: R5-6. Determine the horizontal and vertical components of force that the pins A and Cexert on the…
A: In this system,the 3 load acting on the system. First is uniform distributed load at point C to d.…
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.
Q: F4-11. Determine the force developed in the short link BD, and the tension in the cords CE and CF,…
A: Drawing the free body diagram of the given structure where FBD, FCE, FCF are the forces in the cord…
Q: 4-74 For the frame shown, determine the magnitude of the pin reaction at B. Neglect the weight of…
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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: •5-21. Determine the horizontal and vertical components of reaction at the pin A and the tension…
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Q: 4-15. The 10-kg uniform rod is pinned at end A. If it is subjected to a couple moment of 50 N-m,…
A: Given data: Mass of uniform rod = 10 kg Magnitude of couple applied = 50 N m…
Q: •5-21. Determine the horizontal and vertical components of reaction at the pin A and the tension…
A: From the given figure, ∑MA=0 T×35×3+T×45×1=0-60×1-30=0T=34.62 kN
Q: •5-65. If P 6 kN, x 0.75 m and y 1 m, determine the tension developed in cables AB, CD, and EF.…
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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.
Q: 6-67. Determine the force that the smooth roller C exerts on member AB. Also, what are the…
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- W=25N, h=60mm. Find the spring force acting on the member DE and the reactions of the support at F.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 memb5-31. 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.
- The 9.2-kg uniform rod is pinned at end A. If it is also subjected to a couple moment of 50 N⋅m. The spring is unstretched when θ = 0, and has a stiffness of k = 60 N/m. A) Determine the smallest angle θ for equilibrium. θ= ?Both pulleys are fixed to the shaft and as the shaft turns with constant angular velocity, the power of pulley A is transmitted to pulley B. Determine the horizontal tension T in the belt on pulley B and the x, y, z components ofreaction at the journal bearing C and thrust bearing D if θ = 45°. The bearings are in proper alignment and exert only force reactions on the shaft.Determine the force needed to support the 100-lb weight. Each pulley has a weight of 10 lb. Also, what are thecord reactions at A and B?
- 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.The sign has a mass of 110 kg with center of mass at G. Determine the x, y, z components of reaction at the ball-and-socket joint A. Detertmine the tension in wires BC and BD.Determine the magnitude of the pin force at A.Assume W = 665 lb, a = 3.7 ft, b = 2.9 ft, r = 8 in.
- The bar AB is supported by two smooth collars. At A the connection is with a ball andsocket joint and at B itis a rigid attachment. If 200 N force (parallel to Y axis) is appliedto the bar, determine the x, y, z components of reaction at A and B.Q (4): The 11 Kg lamp fixture is suspended from the two springs, each having an unstretched length of 6 m. Determine stiffness of k for equilibrium.Determine the support reactions at the smooth collar A and the normal reaction at the roller support B.