Given the distributed load, determine the reaction force at point A. F = 13 kN/m F В A 4 m. 10 m
Q: The ball ( D) has a mass of ( 15 kg ). If a force of ( F 80 N) is applied horizontally to the ring…
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Q: Q 2: The ball ( D) has a mass of ( 15 kg ). If a force of (F 80 N ) is applied horizontally to the…
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Q: Find the forces at A, E and C A 50 N/m 4 m 4m Ay= Ex= Ey= Cx= Cy=
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Q: Determine the Normal Forces at A and B and the tension in the cable. O 1400kg 0.6m 0.4m B 0.6m 0.6m…
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Q: QU. Determine the support reactions on the member. The collar at A is fixed to the member and can…
A: There is vertical force is collar A Apply the conditions of equilibirum…
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Q: Determine the external reactions at A and F for the roof truss loaded as shown. The vertical loads…
A: Let horizontal and vertical reactions at hinge support A are RAX and RAY respectively. Let vertical…
Q: The cable is subjected to a uniform loading of Determine the maximum and minimum tension in the…
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Q: Determine the magnitude of the maximum force F if the tension in the screw is 2kN 500N 3m T max 400N…
A: Find the maximum force (F) Maximum tension in screw = 2 kN
Q: Q22: Determine the maximum mass of the crate so that the tension developed in any cable does not…
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Q: 2. Determine the maximum mass of the lamp that the cord system can support so that n single cord…
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Q: If the spring DB has an unstretched length of 2.7 m, determine the forces in the cable and the…
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Q: Draw the free body diagram of each system
A: Free body diagram of the system 1:
Q: Four forces are exerted on the eyebolt as shown. If the net effect on the bolt is a direct pull of…
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Q: If the tension developed in each of the cables must not exceed T (N). Determine the maximum mass of…
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Q: 2. Determine the maximum mass of the lamp that the cord system can support so that no single cord…
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Q: Determine the maximum mass of the lamp that the cord system can support so that no single cord…
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Q: The ball ( D) has a mass of ( 15 kg ). If a force of ( F = 80 N ) is applied horizontally to the…
A: Apply the conditions of equilibrium ∑Fx=0100-FABcosθ=0FAB=100cosθ∑Fy=0FABsinθ-196.2=0…
Q: Determine the reactions of all supports using the force method. E is constant. 50 Kg/m +1.00 m 4.00…
A: The given beam is loaded with a uniformly distributed load and a point load. After all these loads…
Q: The weight W = 9 kN hangs from the cable which passes over the pulley at F. Neglecting the weights…
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Q: Determine the maximum and minimum force of the cable. 80 ft 20 ft B 7.2 ft W = 960 lb
A: Given: The weight, W = 960 lb The length, L = 80 ft The height of A, x = 20 ft The height of B, y =…
Q: The beam is loaded with a uniformly varying load 0 at point D and maximum of 7 kN/m at the fixed…
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Q: If the tension developed in each of the cables must not exceed T (N). Determine the maximum mass of…
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Q: Given the distributed loads, determine the reaction force at point A. Fi = 20 kN/m %3D F = 31 kN/m A…
A: Given data: F1=20 kN/mF2=31 kN/m Need to determine the reaction force at A.
Q: The beam is loaded with a uniformly varying load 0 at point D and maximum of 7 kN/m at the fixed…
A: Given data: w=7 kN/m Need to determine the horizontal reaction force at the support.
Q: The pressure loading on the plate varies uniformly along each of its edges. Determine the magnitude…
A: Given data: p=ax+by+c Need to determine the value of "c".
Q: If the weight of the boom is negligible compared with the applied 49-kN load, determine the cable…
A: Given. Weight = W = 49 kN
Q: Determine whether or not it is stable for that position. R=0.75m h=1.50m
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Q: Four forces are exerted on the eyebolt as shown. If the net effect on the bolt is a direct pull of…
A: Calculated the necessary values of T and theta.
Q: 45° B W 30°
A: Given data: W = 100 lb Determine 1. Tension T in the cable 2. Normal force, N
Q: A 800 N 600 N B 0.8 m (0.4 m 0.4 m 0.8 m
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Q: The ball D has a mass of 20 kg. If a force of F 100 N is applied horizontally to the ring at A,…
A: When a given system is in equilibrium, then the net external force acting on the system is equal to…
Q: Draw the bond graph of the mechanical system. VI K2 m. F 9.
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Q: The total mass of cable AC is 25 kg. Assuming that the mass of the cable is distributed uniformly…
A: Given Data Mass of the cable, m= 25Kg Weight of the cable, W=25(g) =245.25 N Mass of the block, M =…
Q: The 100 kg block is supported by two springs having the stiffness shown. Determine the stretch of…
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Q: The weight W = 9 kN hangs from the cable which passes over the pulley at F. Neglecting the weights…
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Q: Determine the magnitude of the pin force at A. Assume W = 750 lb, a = 2.7 ft, b = 2.0 ft, r = 6 in.…
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Q: Determine the external reactions at A and F for the roof truss loaded as shown. The vertical loads…
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Q: A 10 m y 16 kN/m 10 m B T 2 m -X
A: w0= 16 kN/mL= 10 mLtotal= 10+10= 20 mh= 2m
Q: Determine the components of reaction at the fixed support A. Neglect the thickness of the beam. 200…
A: The free body diagram of the beam is as follows:
Q: E D H 4 ft 4 ft- 3000 lb 1000 lb B K Lond Determine the magnitude (in Ibs) of the external reaction…
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Q: If the weight of the box 10 W determine the cable tensions TAB, and TAC and TAD. 3 ft 2 ft 3 ft B 2…
A: Find the tension force in each cable.
Q: Determine the horizontal and vertical component at A and B neglect the weight of the beam 1.5 m 4 kN…
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Q: If the tension in the spring is 600, the vertical component of the pin reaction at B is:
A: Given, Tension in spring = 600 lb
Q: 1. The cable is subjected to a uniform loading of w = 60 kN/m. Determine the maximum and minimum…
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Q: 200 N 6. 15 E= 100 6pa V= 0.a5 0:5 m
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Q: Four forces are exerted on the eyebolt as shown. If the net effect on the bolt is a direct pull of…
A: Calculated the necessary values of T and theta.
Q: If the bucket weighs 60 N, determine the tension developed in cable BE and DE. 30 30 36.3 21
A: Given:
Q: If the stretch in the spring is Scd (given below), determine the normal forces Na and Nb acting on…
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- Solve Prob. 10.54 assuming that A and B are connected by a spring of stiffness k = 0.3 W/b and free length b.Before the load is placed on the rigid plate, the top of the central spring is 20 mm lower than the outer springs. Each outer spring is made of 24 turns of 15-mm diameter wire on a mean radius of 60 mm. The central spring consists of 16 turns of 20 mm dimeter wire on a mean radius of 80 mm. If a load P = 5 kN is now placed on the rigid plate. Disregarding the weight of the plate, use G = 83 GPa and use Light spring formula. Determine the maximum shearing stress of the in uter spring. In MPaThe 304 stainless steel post A is surrounded by a red brass C83400 tube B. Both rest on the rigid surface. If a force of 25 kN is applied to the rigid cap, determine the required diameter d of the steel post so that the load is shared equally between the post and tube. The elastic modulus for brass is 101 GPa and the elastic modulus for steel is 193 GPa
- Determine the internal load of element 3. Note that elements BG and CF are independent. a = 4, b =2, w = 23 in., h = 13 in., P = 258 lb y Q = 239 lb.The three A992 steel bars shown in the figure are attached to a rigid member. If the applied load on the member is 15 kN, determine the force developed in each bar. Bars AB and EF each have a cross-sectional area of 50 mm2, and bar CD has a cross-sectional area of 30 mm2.The ball is truncated at its ends and is used to support the bearing load P. The modulus of elasticity for the material is E. Determine the decrease in the ball's height when the load is applied. Express your answer as an expression in terms of the variables P, r, and E and any necessary constants.
- the pipe AB is screwed in tightly to a pipe flange attached to the wall. It has two forces acting on it as shown below. Draw a complete FBD of the bar (its loads and support reactions). FB= (2i + 6j + 3k) kNFc= (1i - 2j + 2k) kNdetermine the maximum value of the load wThe rigid beam is supported by a pin at C and an A992 steel guy wire AB of length 6 ft. If the wire has a diameter of 0.2 in., determine how much it stretches when a distributed load of w = 200 lb>ft acts on the beam. The wire remains elastic.
- A plastic rod is 200mm long and 15mm in diameter. If a tensile load of 300N is applied to it, determine the change in its length and the change in its diameter. Assume Modulus of elasticity (E) = 2.70 GPa, and poisson's ratio (v) = 0.4. indicate free body diagramThe rigid beam is supported by a pin at C and an A-36 steel guy wire AB. If the wire has a diameter of 0.2 in., determine how much it stretches when a distributed load of w = 100 lb>ft acts on the beam. The material remains elastic.A 100-mm-long rod has a diameter of 15 mm. If an axial tensile load of 10 kN is applied to it, determine the change in its diameter. E = 70 GPa, n = 0.35.