6-78* The bent bar shown in Fig. two brackets that exert only force reactions on the bar. End C of the bar rests against smooth horizontal and vertical surfaces. Determine the reactions at supports A, B, is supported with and C. 450 mm 300 3 mm 400 N 300 N B 200 mm 200 N A 200 mm C 300 mm 250 mm
Q: 6-53 Determine the force exerted by the cable at B and the reaction at support A of the bar shown in…
A: Drawing the free body diagram of the system, T is the force in cable. Taking the moment about A,
Q: 6-79 Bar AB is used to support an 850-lb load as shown in Fig. and-socket joint. End B of the bar is…
A: Given that,
Q: 6-50 The mass of the cylinder shown in Fig. 100 kg. Determine the reactions at contact points A and…
A: Given data as per the question Mass = 100 kg Force = 300 N considering the free body diagram of the…
Q: A member (AC) is supported by a pin at A and a roller at B. The horizontal component of reaction at…
A:
Q: 6-91* A bar is supported by a ball-and-socket joint and two cables as shown in Fig. at support A…
A: Let point where downward force is acting be o Co-ordinates of points in question are A (0,0,0) B…
Q: 6-100 Abracket is loaded and supported as shown in Fig. Determine the reactions at supports A and B.…
A: The free body diagram is shown below with the reaction forces acting at A & B . As A is hinge so…
Q: The simple truss is loaded by a system of forces as shown in the figure. The truss is supported by a…
A:
Q: Pl-3. Determine the largest internal normal force in the bar. D 10 kN 5 kN 2 kN 6 kN
A: To find the largest internal normal force.
Q: Solve the reinforcement using the method of nodes. Calculate the reactions and forces in the bars…
A: Consider the following FBD Reactions can be calculated by equilibrium equations Taking sum of…
Q: 6-45 A rope and pulley system is used to support a body as shown in Fig. the ropes are continuous…
A: Drawing the FBD of the rope and pulley as shown below –
Q: Determine the force in each member of the loaded truss. All triangles are 3-4-5. Enter a positive…
A:
Q: The light boom AB is attached to a vertical wall by a ball and socket joint at A and supported by…
A:
Q: 6-75 A 500-lb homogeneous circular plate is supported by three cables as shown in Fig. in the three…
A: Write the expression of the position vector of point A. Write the expression of the position vector…
Q: 6-52 Determine the reactions at supports A and B of the curved bar shown in Fie. 3 kN 4 kN 0.5 m Im…
A: Draw free body diagram for given beam Taking net moment about B to determine reactions at A
Q: 5-39. Determine the reactions at the supports A, C, and E of the compound beam. 12 kN 3 kN/m -3m- 6m
A:
Q: 6-40 An angle bracket is loaded and supported as shown in Fig. Determine the reactions at supports A…
A: at Pt. A angle bracket has a pin joint and at Pt. B it has roller support. The free body diagram of…
Q: 6-47 A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and weighs…
A: Given data: The weight of the beam is; w = 975 lb. The concentrated force acting at the right end of…
Q: 6-103 A bar is loaded and supported as shown in Fig. End A of the bar is supported with a…
A: Draw the FBD for the above problem. Now write the vector expression for tension in the cable.
Q: Determine the position of the neutral axis of a curved bar subjected to flexure by a couple shown in…
A: The position of the neutral axis of a curved bar subjected to flexure by a pair must be…
Q: Determine the axial force in the bars 1 & 4 of the tower shown in the figure due to a horizontal…
A:
Q: 6-43 Determine the reactions at supports A and B of the curved bar shown in Fig 30 50 Ib 6 in. 8…
A: Free-body diagram of the beam is given as, On taking equilibrium of forces in a horizontal…
Q: 6-34 A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and a mass…
A: Given mass of beam (m) = 180 kg To determine Reactions at support A
Q: 6-95 A curved slender bar is loaded and supported as shown in Fig and B and the tension T in the…
A: Consider the free body diagram of the given figure as shown below.
Q: has a mass of 6-84 The block W shown in Fig. 250 kg. Bar AB rests against a smooth vertical wall at…
A: Given Mass of bar m=250kg
Q: 6-44 Determine the force exerted by the cable at B and the reaction at support A of the curved bar…
A: Given data as per question Force applied =850 N considering free body diagram of the system in Δ…
Q: Could you help me solve this question please? It is statics. Thanks.
A: Draw a free body diagram of the crane, Now, apply the equilibrium of force in the horizontal…
Q: 6-37 A structural member is loaded and supported as shown in Fig. tion and weighs 208 lb. Determine…
A: Given Data: The weight of the member is W = 208 lb. The free-body diagram of the member can be…
Q: ring 2020-2021.paf *5-88. Determine the horizontal and vertical components of reaction at the pin A…
A: We have to determine horizontal and vertical components of reaction pin A and the force in yhe cable…
Q: 6-48* A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and a…
A: Given Data: The mass of the beam is M = 275 kg. The triangular load varies from w1 =0 to w2 = 4200…
Q: Figure Q1 shows bar ABCD attached to collars B and C which may move freely on its longitudinal axis.…
A:
Q: · 400 mm- 1. A block with a mass of 150-kg is supported by a cable which passes over a 150-mm…
A: Given data: - The mass of the block is m = 150 kg. The distance between AB is h = 450 mm. The…
Q: 6-88* A bar is supported by a ball-and-socket joint, link, and cable as shown in Fig. at supports A…
A: Given: The force acting on the link AB, P = 2.5 kN The unit vector along CD,
Q: 6-62 A frame is loaded and supported as shown in Fig. P6-62. Determine the reactions at supports A…
A: Given data To determine the reactions at the supports A and E
Q: The door has a weight of 90 lb. Its center of gravity is shown in the figure by point G. If the…
A: Draw the FBD for the given question.
Q: 6-33 A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and weighs…
A: Given Data: Force applied on beam is F = 2500 lb. Length of beam is L = 12 ft. The weight of beam…
Q: 3. Determine the force in members AB, BD, BE, and DE of the Howe roof truss shown in the figure. E F…
A:
Q: 5 - The ring supports the 1000-N load and is held in position by the two cables attached to vertical…
A: Given Load, P = 1000 N
Q: 6-98. The two-member frame is pin connected at E. The cable is attached to D, passes over the smooth…
A:
Q: 6-98* Acylinder is supported by a bar and cable as shown in Fig. 75 kg. Determine the reaction at…
A: Given: Mass of the cylinder is M=75 kg and diameter is d=200 mm Drawing the free body diagram of the…
Q: Act on the structure in the figure The horizontal force is 2KN at the end D Find the reaction in the…
A:
Q: 3 KN Q.3) Find the force in each member of the truss by using joint method, if a pin support at A…
A:
Q: 6-44 Determine the force exerted by the cable at B and the reaction at support A of P6-44. the…
A:
Q: 6-42 An angle bracket is loaded and supported as shown in Fig. and the reaction at support B.…
A: The free-body diagram of the given bracket can be drawn as shown below, Here T is the tension force…
Q: Find the true magnitude and direction of the forces at all the supports A and B of the truss at…
A:
Q: 6-65* The crane and boom shown in Fig. 12,000 lb and 600 Ib, respectively. When the boom is in the…
A: The weight of the crane is mc=12000 lb. The weight of the boom is mb=600 lb. The weight of the load…
Q: *3-8. The strut is supported by a pin at C and an A-36 steel guy wire AB. If the wire has 'a…
A:
Q: 6-89 A beam is supported by a ball-and-socket joint and two cables as shown in Fig. at support A…
A: B (0, 0, 6) C (-7, 0, 3) D (0, 11, 0) E (0, 6, 0) Taking moment about D, ΣMD = 0 ; - 11 j * Ax i -…
Q: 4-45. Determine the horizontal and vertical components of the pin reactions at A and B on the member…
A: given data: RH horizontal omponent at pin A RV vertical component at pin A T is tention at PIN B…
Q: 4/30 Determine the force in member CM of the loaded truss. 4m+4m+4m+4m4m+4m- E Fl K B N L L. L. A L…
A:
Trending now
This is a popular solution!
Step by step
Solved in 8 steps with 1 images
- Using the method of sections, determine the forces inmembers BG, CI, and CD. Express your answers in terms of P (e.g.FA= 0.5P)3.1 Use the concepts of moment and force equilibrium, find the reactions atpoint A (FAx and FAy) and point E (FEy).3.2 Find FBG first. Cut through BC, BG, and GF, consider the Left-Hand Side(LHS) section as a whole, find FBG by considering the Free-Body Diagram(FBD), and equilibrium of forces in the y-direction.3.3 Now find FCI and FCD. Cut through CD, CI, and HI, consider the RHSsection as a whole, find FCI by considering the FBD, and equilibrium offorces in the y-direction. Then, find FCD by taking moment at point I, andconsider the concept of moment equilibrium.The 20 mm diameter steel shaft AB is attached into the rigid wall at B and supported by a smooth bearing at A. The lever AC is welded to the end of the shaft. If the downward force P will produce a 50 mm vertical displacement at the free end of lever AC, determine the force P if G = 83 GPa.The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the cables BE and CD. The load applied at C. Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum. Neglect the weight of the boom and cables. Answers: y = 16ft ; z = -34.7ft ( Please i need the solution)
- 4-3.15. solve for the force in members eF and EG for the truss shown in Fig. P-4-3.14the member is subjected to a distributed load and a point force as shown in the figure. Determine the support reactions at A and B.The pin at O can support a maximum force of 3.5 kN. What is the corresponding maximum load L which can be applied to the angled bracket AOB? A. 0.541 kN C. 2.632 kN B. 1.676 kN D. 3.091 kN
- Can you Please Solve for Reaction @ Support A & B. Where EI constant.The assembly is made of A-36 steel cylinders. (Figure 1) Part A: If the gap between C and the rigid wall at D is initially 0.15 mm, determine the magnitudes of the support reactions at A and D when the force P = 220 kN is applied. Enter your answers in kilonewtons to three significant figures separated by a comma. Fa, Fd = ?The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the cables BE and CD. The load applied at C. Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum. Neglect the weight of the boom and cables. Answers: y = 16 ft; z = -34.7 ft Note:The reaction at ball and socket joint is always represented by the x, y and z components
- The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the cables BE and CD. The load applied at C. Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum. Neglect the weight of the boom and cables. Answers: y = 16 ft; z = -34.7 ft Note: The reaction at ball and socket joint is always represented by the x, y and z components.Two solid cylindrical rods AB and BC are welded together at B and loaded as shown inFigure: Q 4(b). Assume flange at point B always remains straight. (i) Sketch free body diagram (FBD) of segment AB and BC.(ii) Determine the magnitude of the force P if tensile stress in rod AB is equal to magnitudeof compressive stress in rod BC.A crane boom of mass 450 leg with its center of mass at C is stabilized bytwo cables AQ and BQ (Ae = 304 mm2 for each cable) as shown in thefigure. A load P=20 KN is supported at point D. The crane boom lies inthe y - z plane.ho(a) Find the tension forces in each cable: TAQand TBQ(kN}. Neglect themass of the cables, but include the mass of the boom in addition to load P.(b) Find the average stress (6) in each cable.