6-34 A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and a mass of 180 kg. Determine the reaction at support A. 2 kN 3 kN-m B -2 m -2 m-
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: 6-54 The man shown in Fig. the beam has a mass of 40 kg. The beam is in equilibrium with the man…
A: Draw the free body diagram of the beam.
Q: 6-23. The Fink truss supports the loads shown. Determine the force in each member and state if the…
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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: Q.2. The beam EF given in figure weighs 10 N/cm and carries the 138 N weight at its end. It is…
A: The free-body diagram of the beam EF is given as, The vector BA is written as, The unit vector in…
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 components of the support reactions at the fixed support A on the cantilevered beam.…
A: To find : The components of the support reactions at the fixed support A on the cantilevered beam.…
Q: For the truss loaded as shown in Figure 5, make calculations for the reactions at the support and…
A: Use Pythagoras theorem to calculate the distance AE. Calculate the angle θ.
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
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Q: 20 KN 20 kN -6 m -6 m If the support reaction at B is 48 kN for the shown beam, the load (P) equals.…
A: P1= 20 KNP2=20 KNP3=PsinθRB= 48KN
Q: 3. Find the reactions at the supports for the 21 kN beam shown below, if the length of the beam is…
A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…
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: 6-55* A rope and pulley system is used to support a body as shown in Fig. P6-55. Each pulley is free…
A: Consider the free body diagram of the pulley C as shown below, From the vertical equilibrium 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: C6-70 The tower crane shown in Fig. construction materials. The counterweight C weighs 31,000 N; the…
A: Draw the free-body diagram of the tower crane.
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: The member shown in Fig. 5-14a is pin-connected at A and rests against a smooth support at B.…
A: Take moment A. ΣMA=0-NB0.75 m+60 N×1 m+90 N·m=0NB0.75 m=150 N·mNB=200 N Balance the vertical forces.…
Q: A force of 150 Ib acts on the end of the beam shown in Fig. 5-16a. Determine the magnitude and…
A: givenbeam rope system as shown below
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: 6-95 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: 3-5.9. Thể wheel loads on a small tractor crossing an 18-ft span are given in Fig. P-3-5.9.…
A: Given Data: Reaction at A is twice that the reaction at B, RA=2RB
Q: 5-107 Determine the resultant R of the system of dis- tributed loads on the beam of Fig. P5-107 and…
A: Consider the Section 1 from support A till the 4 ft length (where the parabolic loading ends). The…
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: 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: 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: 6-33. The Howe truss is subjected to the loading shown. Determine the force in members GF, CD, and…
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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: 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: *6-16. Determine the force in each member of the truss. State whether the members are in tension or…
A: GIVEN DATA A TRUSS IS GIVEN WE HAVE TO FIND FORCES IN ALL MEMBER
Q: The member shown in Fig. 5-14a is pin connected at A and rests against a smooth support at B.…
A: Given data To determine The Horizontal and vertical component of reaction at A
Q: 6-98. The two-member frame is pin connected at E. The cable is attached to D, passes over the smooth…
A:
Q: 6-96 Determine the reactions at supports A and B of the truss shown in Fig. 2 KN 3 kN 5 kN 2 m 2 m 2…
A: Calculate the angle formed by the forces with the horizontal as follows: tanθ=52θ=tan-152=68.20°…
Q: 7-18 Determine the forces in members BC, BE, and CE of the truss shown in Fig. The length of all…
A: Taking the forces at point D. The free body diagram is given below, The expression that can be…
Q: 7-22 Determine the forces in members CD, DI, and HI of the truss shown in Fig. 18 kN 10 kN 14 kN E 3…
A: we have given truss in which three load acting on it. first we will find reacting force and then we…
Q: 6-44 Determine the force exerted by the cable at B and the reaction at support A of P6-44. the…
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Q: Current Attempt in Progress Find the reaction at A due to the uniform loading and the applied…
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Q: 6-47* A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and…
A: Resolving the uniformly distributed load of magnitude 400 ×10= 4000 lb , which acts at the mid…
Q: The beam is supported by pins at A and C. A force of 4 kN is applied at B. Which statement about the…
A: for the given beam first, draw a free body diagram of beam and rod CD
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: 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: APPROXIMATE ANALYSIS OF INDETERMINATE STRUCTURES S T Solve the reactions at the support and the…
A: Please find the solution below
Q: The jib crane supports a load of 750 lb from the trolly which rides on the top of the jib. Determine…
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Q: 6-78* The bent bar shown in Fig. two brackets that exert only force reactions on the bar. End C of…
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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…
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Q: 11-4.18. The bent bar ABC weighing 10 lb/ft is mounted as shown in Fig. P-11-4.18. upon a carriage…
A: Given: The bar weight, w = 10 lb/ft The carriage weight, W = 240 lb The load, P = 108 lb
Q: The member shown in Fig. 3-11a is pin connected at A and rests against a smooth support at B.…
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- Determine the force exerted by the cable at B and the reaction at support A of the curved bar shown in Fig. P6-44.Can you Please Solve for Reaction @ Support A & B. Where EI constant.Find required distance d (in terms of L) so that rotation Ss= 0 is due to M and q loadings applied at the same time. Also, what is the resulting net rotation
- Given are the loadings of the beam in the figure. Assuming all bearings are frictionless. Beam AB is in equilibrium and it weighs 640 kN. a.) What is the weight W in kN? b.) What is the vertical reaction at A in KN?Determine the support reactions for the beam on the left if w=250N/m and L= 6m. Show all work.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.
- Determine the normal reaction, NA and NB, at the smooth supports and the required distance a for the placement of the roller. The weight of the uniform bar is W. Given: θ = 30. Note: give answers in terms of P, W and d.The jib crane is fixed at (A) and carry a box of ( 2500 kg ) mass, as shown in the figure. Determine the reactions on the jib crane at point ( A ). 60 5 m 7 mA beam ABCDE is simply supported at A and D. It carries the following loading: a distributed load of 30 kN/m between A and B; a concentrated load of 20 kN at B; a concentrated load of 20 kN at C; a concentrated load of 10 kN at E; a distributed load of 60 kN/m between D and E. Span AB=1.5 m BC=CD=DE=1 m. A. Draw the FBD B. Calculate the value of the reactions at A and D and hence draw the S.F. and B.M. diagrams. C. What are the magnitude and position of the maximum B.M. on the beam?
- 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 componentsThe 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 compound beam is supported by a roller at point C, fixed at point A, and the two sections are pinned at point B. It is subjected to a free couple moment M, a distributed load with maximum load intensity w, and a concentrated force F. If the distributed load w = 0.6 kN/m, the concentrated force F = 0.6 kN, and the free couple moment M = 0.8, determine the magnitude of the support reaction (in kN) at pin B. Answer must include 2 places after the decimal point.