The cylinder of weight G = 36.7 N rests on the two smooth perpendicular inclines as shown in figure below. Given: G = 36.7 N; a = 60 ° Determine the reaction force between the cylinder and the incline at A in N.
Q: Q.2) For the system and load shown in figure, Determine the reaction forces of bearing at A and B,…
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Q: Calculate the forces occurring in each element of the plane truss system given in the figure…
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Q: Q.2) For the system and load shown in figure, Determine the reaction forces of bearing at A and B,…
A: The coordinates of points C & D Let the tension in the cable be T The reaction at the bearing A…
Q: Q.1) For the frame shown in figure, determine the horizontal and vertical components of 6 cm -9…
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A: The roller gives a horizontal reaction Dx at D. The hinge gives a horizontal reaction Ax and…
Q: Q2/ In equilibrium position shown in figure below. The uniform bar (AB) has a mass of (50 kg) and…
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Q: The system in the figure is in equilibrium. A concrete block of mass 200 kg hangs from the end of…
A: Given Block mass = 200 kg Strut mass = 70 kg To find Magnitude of T Force at Hinge in X direction…
Q: Q: The two-steel shaft shown in figure have the same diameter and weight 140 lb each. Neglect the…
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Q: The truss in the figure is loaded by four external forces as shown below. Knowing that P1= 3 kN,…
A: Note: As per the policy, we can solve the first 3 subparts. Please resubmit the remaining parts.
Q: 1. The frame shown in the figure is hinged at E and roller supported at A. Determine the horizontal…
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Q: The cylinder C in the figure below weighs 1000lbs. Determine the tension in the cable , and the…
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Q: In the figure below, a diver who weighs 65kg stands at one end of a diving board preparing for a…
A: Given Data: Mass of diver, md=65 kg Mass of board, mb=20 kg
Q: Consider the force P applied at point A on the plate of the figure shown (image 1). Assuming that…
A: Consider the free body diagram shown below for the plate with the resolved forces.
Q: The horizontal force acts on the structure in the figure below. Find the effect of the reaction at…
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Q: 4.) In the figure below, two cylinders, A of weight 400LB and B of weight 200LB, rest on smooth…
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Q: 3.18. A block with a mass of 150-kg is supported by a cable which passes over a 150-mm diameter…
A: Given Data Mass of the block is : m=150 kg Diameter of pulley is :d=150 mm Now from the free body…
Q: Q2) 4 m 2 m 2 m The frame as shown in the Figure consist of two members AC and BE. Calculate the…
A: FREE BODY DIAGRAM is a diagram of the system which represents all the forces acting on the system.…
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A: Force acting on submerged body = ρgA h ρ = densityg= acceleration due to gravityA = area h =…
Q: 3a)Two cylinders each of diameter 100 mm and each weighing 200 N are placed as shown in figure…
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Q: Two cylinders having 75 kg and 20 kg mass are connected with a cable and held in equilibrium on…
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Q: 300 K- 15 KN/m 3 KN 8 kN
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Q: Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum.
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Q: Q The two-steel shaft shown in figure have the same diameter and weight 180 lb each. Neglect the…
A: Given, Weight = 180 lb
Q: A 15,000 N crane pivots around a friction-free axle at its base and is supported by a cable making a…
A: a.
Q: Q.2) For the system and load shown in figure, Determine the reaction forces of bearing at A and B,…
A: The coordinates of points C and D from the figure are, Let the tension in the cable CD be T The…
Q: The hanging structure in the figure below is homogeneous. Its weight (40 kg) is acting at the center…
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Q: Q3 Determine the required spring stiffness of kAB in Figure below so that the 10-kg lamp can be…
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Q: 20 kg is supported by two inclined planes, as shown. Sketch
A: given:mass of cylinder m=120kg
Q: Q: The two-steel shaft shown in figure have the same diameter and weight 120 lb each. Neglect the…
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Q: The figure shows a bar in equilibrium position resting on the floor at point A and on the wall at…
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Q: 1. Calculate the support reactions, calculate internal forces on the designated section C, and plot…
A: as per our guidelines . i am giving the answer of 1st question. if you want to know the solution of…
Q: Homework: The pin-connected structure of Figure below has the 2400 N.mm moment applied to member…
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Q: The truss in the figure is loaded by four external forces as shown below. Knowing that P1= 30 kN,…
A: Note: As per the policy, we can solve the first 3 subparts. Please resubmit the remaining parts.
Q: 8. The uniform rod in the figure shown weighs 400N and has its center of gravity at G. Determine the…
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Q: find the value of R1
A: Given: weight of the Carriage (W1) =480 lb Weight of the ladder (W2) =240 lb P= 180 lb Distance…
Q: Q The two-steel shaft shown in figure have the same diameter and weight 120 lb each. Neglect the…
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Q: Consider the bracket shown in Fig-3. If: • F1 - 10 lb @ -90° • a- 2 ft • b- 4 ft • c-1 ft then, what…
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Q: Q The two-steel shaft shown in figure have the same diameter and weight 170 lb each. Neglect the…
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Q: 1. Isosceles triangular gate AB in the figure is hinged at A. Compute the horizontal force F…
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Q: A 1,400-N uniform boom at o = 58.5° to the horizontal is supported by a cable at an angle 0 = 31.5°…
A: Given Data: The weight of the bloom is w1 = 1400 N The weight of the object is w2 = 1850 N The…
Q: 2. The frame shown in the figure is hinged to rigid supports at D and E and roller supported at A.…
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Q: 3. The system of chords is knotted as shown in figure below, carry the weights: 300lb & 400 lb.…
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Q: The truss is subjected to the system of forces as shown in the following figure. The truss is…
A: The free body diagram of the truss is given below,
Q: Perfectly smooth W=240 lb 5' 5' .A 4. 1' C 3.
A: Consider the free body diagram:
Q: A block with a mass of 150-kg is supported by a cable which passes over a 150-mm diameter pulley…
A: Given The mass of the block = 150 Kg The tension in the string W = 150*10 = 1500 N The diameter of…
Q: Determine the reaction between the wall and B in kN.
A: Given: TO determine: The reaction between the cylinder B and wall
Q: Problem 2. For the Plane frame shown in figure, determine the axial force in cord (DE) and the…
A: Moment (M) at point D: 29 kN.m Vertical Load at D: 7 kN Horizontal load on member BE: 10.5 kN
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- The platform scale consists of a combination of third and first class levers so that the load on one lever becomes the effort that moves the next lever. Through this arrangement, a small weight can balance a massive object. If a 3kg counterweight S is used to balance a 120kg load L, what is the value of 'x'? Draw all pertinent FBDs. Use g=9.806 m/s2.Equilibrium of Concurrent Force System. The piston of a reciprocating engine exerts a force of 175 kN on the crosshead when the crank is 45° (angle B) past TDC. If the stroke of the piston is 800 mm and the length of the connecting rod is 1.80 m, find the guide force and the force in the connecting rod. Hint: 1=½ stroke; Angle o may be solved using Sine Law in AACO. K= Compressive Force in the connecting Rod E= Piston Effort 70 120 F, = Guide Force Fig. P-1 Fig. P-2 a Tools: EF cos0=0; F sin .=0. R = Ev)* + (E#): ; R 771 =- : tane = sin A sin B sin CShow only the free body diagram for each question given.
- Q5/A) From the figure below, determine the reaction force at pin C. A 000 0.6 m 10 kN 0.6 m 0.8 m 60° 0.4 m 6 kN OBA truss is facing a two-force member and both of them are in the opposite directions, and the truss is in equilibrium. And both of them are coming to each other. The forces are called Select one: O a. Tensile Forces O b. Compressive forces O c Parallel and collinear forces with same direction of heading O d. The rotational forces Next page est-3 Jump to...1) Determine the reaction at roller A. Express your answer to three significant figures and include the appropriate units. 2) Determine the horizontal and vertical components of reaction at pin B( Bx,By) . Express your answers in newtons to three significant figures separated by a comma.
- The pipe assembly is supported by smooth journal bearings at A. B. and C. Suppose that F= 310 N. (Eigure 1) Part A Determine the y and z components of reaction at A using scalar notation Express your answers using three significant figures separated by a comma. V AE I1 vec ? Ay. A, = Submit Request Answer Part B Determine the z and z components of reaction at B using scalar notation. Express your answers using three significant figures separated by a comma. Vo AEd It vec ? Figure В, В, Submit Request Answer • Part C 0.6 m 0.4 m Determine the y and z components of reaction at C using scalar notation. Express your answers using three significant figures separated by a comma. 0.6 m 0.6 m Va AEO| vec ? Cy, C; = N1) Determine the reaction at roller A. Express your answer to three significant figures and include the appropriate units. 2) Determine the horizontal and vertical components of reaction at pin B(Bx,By) . Express your answers in newtons to three significant figures separated by a comma.a) Draw the free-body diagrams of pulley C and of block E separately. b) Calculate the following: gridinion! the magnitude of tension forces along cables CAD and ACB, Slugmo the mass of block E, ME, mont • and the spring constant, k. patinlog.431 93 80 anil Juods insmo m (SA 1.5 ft 1 ft U D 50° 2 ft beniamos terb salsa binowB 35° C E am Sta Juoma 100.0 8.0 T.0 mao ISTOG ed oj
- The level of a common steelyard without hook connections weights 7kg and acts at 5cm to the left of the fulcrum. The hook which carries the load,weights 4kg and is also attached on the left-hand side of the fulcrum at a distance of 12cm.if graduation mark 72cm from the fulcrum reads 50kg. Find (a).the weight of rider (b). How far is the zero graduation from fulcrum (c).What is the movement of riderper kg of graduation?A series of compound levers is used as weighbridge. If a mass of 14.4kg is placed on the pan P and it is required that x = 475mm to balance the beam ABC, determine the mass (in 1 decimal digit of a kg) of the truck. There are pins at all points lettered. Take EF - 0. 2m, FD = 3m, KG = GH = 7m, and HI = KJ - 0.2m. 2nd question (answer in Bonus problem e): Is it necessary for the truck to be symmetrically placed on the scale? Explain. JKG & GHI are INDEPENDENT of EACH OTHER.FREE-BODY DIAGRAM EXERCISES 3/A In each of the five following examples, the body to be isolated is shown in the left-hand diagram, and an in- complete free-body diagram (FBD) of the isolated body is shown on the right. Add whatever forces are nec- essary in each case to form a complete free-body dia- gram. The weights of the bodies are negligible unless otherwise indicated. Dimensions and numerical values are omitted for simplicity. Body Incomplete FBD 1. Bell crank supporting mass m with pin support at A. mg m Flexible cable A Pull P P. 2. Control lever applying torque to shaft at 0. Fo 3. Boom OA, of negligible mass compared with mass m. Boom hinged at O and supported by hoisting cable at B. B m mg 4. Uniform crate of mass m leaning against smooth vertical wall and supported on a rough horizontal surface. A mg B B 5. Loaded bracket supported by pin connection at A and fixed pin in smooth slot at B. Load L Figure 3/A Page5