6-32 A curved slender bar is loaded and supported as shown in Fig. Determine the reactions at supports A and B. 300 N 45° 1.5 m A
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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,
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Q: Q.1) For the frame shown in figure, determine the horizontal and vertical components of 6 cm -9…
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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…
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Q: #4 A small winch is used to raise a 120 Ib load. Determine the reaction forces at points A and B. -…
A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…
Q: Example -3: The member shows a is pin connected at A and rests agai a R smooth support at B.…
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Q: 6-36* A beam is loaded and supported as shown in Fig. The beam has a uniform cross section and a…
A: The free body diagram explains the problem
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Q: 6-75 A 500-lb homogeneous circular plate is supported by three cables as shown in Fig. in the three…
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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…
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Q: 6-41 A 30-lb force P is applied to the brake pedal of an automobile as shown in Fig. applied to the…
A: Draw the free body diagram of the given brake pedal: Here, AX is the horizontal force at A, and AY…
Q: 6-77* The bent bar shown in Fig. is supported with three brackets that exert only force reactions on…
A: Draw the free-body diagram of the bar.
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: 8-30 A three-bar frame is loaded and supported as shown in Fig. moment transmitted by Determine the…
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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
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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: Ex. 3-2 etermine the tension in cable BC and BA necessary to upport the 60 kg cylinder shown in the…
A: Given:mass of the cylinder, m=60 kg
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A: Draw a free body diagram of the crane, Now, apply the equilibrium of force in the horizontal…
Q: PH-2 The member shown in Fig. 3-11a is pin connected at A and rests against a smooth support at B.…
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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: | 30/ 20 kN + 200 mm E F $ 200 mm 135° 45° 45° B
A: The force which is offered by the foundation to a block placed over it is termed as reaction force.…
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A: given data: normal reaction force at point B=NBvertical force at point B=FVBhorizontal force at…
Q: Figure Q1 shows bar ABCD attached to collars B and C which may move freely on its longitudinal axis.…
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Q: 6-51 A lever is loaded and supported as shown in Fig. Determine the force exerted on the lever by…
A: Given: The length of AB is AB =12 in. The length of AC is AC= 6 in. Calculate the length of CD by…
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: Problem 2 1800 kN/m 600 kN/m The member BC is subjected to the distributed load as shown in the…
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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: QUESTION 3 The rigid body structure is loaded and supported (pin at A and roller at D) as shown in…
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Q: 6-21 The 6-m pole shown in Fig. P6–21 supports a load P = 20 kN. The pole is supported by a…
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Q: Ex. 3-2 Determine the tension in cable BC and BA necessary to Support the 60 kg cylinder shown in…
A: When a given system is in equilibrium, then the net external force acting on the system is equal to…
Q: 6-80 Bar AC of Fig. at end C and is supported at end A with a ball-and-socket joint. The cable at B…
A: Consider the free body for the bar as shown below.
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: A35-kg disk rests on an inclined surface for which µs = 0.2. The disk is connected to a beam by pin…
A: The mass of the disk is m=35 kg. The coefficient of static friction is μs=0.2.
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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: 6-65 The crane and boom shown in Fig. 12,000 lb and 600 lb, respectively. When the boom is in the…
A: Given: Weight of the crane and boom are 12000 lb and 600 lb. Load which is lifted is 3600 lb.
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- The rigid bar AB with a length of 5m, is attached to two vertical rods and ishorizontal before the uniformly varying load of zero intensity at point A and 10kN/mat point B is applied. The rod at A is steel with L=3m, A=300 mm2 and E=200GPa. Therod in B is aluminum with L=4m, A=500mm2 and E = 70GPa. Determine the verticaldisplacement of the bar at a point where the resultant of the load is acting.Determine the support types and draw the support reactions into the free body diagram. ?0 = 1 ??/? , ?? = 1 ??A six-pack is shaken so that the pressurein each can is p = 20 psi. A board is placed onthe six pack and a student(s) weighing Wstands on the board so his weight is evenlydistributed to the six cans. The aluminumproperties are E = 10,000 ksi, Sy = 35 ksi, andν = 0.33. Each can has an average radius ofR = 1.25 in., thickness t = 0.01 in., and lengthL = 4.50 in.(a) Determine the critical weight of thestudent, Wcr , so that a stress element on thesurface of the can is in a state of uniaxial stress.Assume that no support is provided by thecontained liquid and the cans do not fail bybuckling (being crushed). (b) Determine thestrain in the longitudinal direction of the candue to pressure p = 20 psi and force Wcr.(c) Determine the strain in the hoop directionof the can due to pressure p = 20 psi and forceWcr
- The steel rod is shown in Figure has a diameter of 10 mm. It is fixed to the wall at A, and before it is loaded, there is a gap of 0.2 mm between the wall at B and the rod. Determine the reactions on the rod if it is subjected to an axial force of P = 20 kN. Neglect the size of the collar at C. Take Est = 200 GPa.A steel column (E = 200 GPa) is 9 m long, embedded in aone end and supported on the other. If the section is shown below, determine if it would break by loss.of stability, where ?? = 250 ???.A circular steel rod has a diameter of 50 mm. It touches the unyielding supports at point A and B when ?1 = 80 °C. Find the applied force P to the collar at its midsection so that, when ?2 =30 °C, the reaction at B is zero. Use E st = 200 GPa and the coefficient of linear expansion of steel is at 12 x 10^-6 m/m C.
- 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 = ?Can you Please Solve for Reaction @ Support A & B. Where EI constant.A beam is loaded and supported as shown in Fig. P6-39. The beam has a uniform cross section and weighs 40 lb. The pulley at B weighs 50 lb. Determine the reaction at support A and the tension Tin the cable.
- The rigid bar AB, attached to two vertical rods as shown in Fig. P-213, is horizontal before the load P is applied. If the load P = 50 kN, determine its vertical movement.A shaft ABCD, 25 mm in diameter is subjected to torques of 1850 N-m at B and 2000 N-m at C acting in the samedirection. Segment AB is 4 m long, BC is 2 m long, and CD is 4 m long. Supports A and D are fixed and unyielding.G = 86 GPa. Determine the ff:A.) Reaction at A (N-m)B.) At what segment is the torsional stress largest? What is the stress on that segment? (MPa)C.) Angle of rotation between points A and C (radians)The brass tube AB (E = 105 GPa) has a cross-sectional areaof 138 mm² and is fitted with a plug at A. The tube is attached atB to a rigid plate that is itself attached at C to the bottom of analuminum cylinder (E = 70 GPa) with a cross-sectional areaof 250 mm². The cylinder is then hung from a support at D. In orderto close the cylinder, the plug must move down through 1.2 mm. Determine the force P that must be applied to the cylinder.