Example: Body M shown in figure weighs (300 N) and the homogeneous bar BE weighs (60 N). Draw the free body diagram of each of the two bodies
Q: A uniformly distributed force of C kN/m and a concentrated load of D kN are applied to a cantilever…
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Q: The L-bar shown in the figure is fastened by a bearing at point A that allows it to rotate, such…
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Q: A steel bar of cross-sectional area 200 mm^2 is loaded as shown in Fig. Find the change in length of…
A: For solution refer below images.
Q: Anchor of the beam given in the figure is built-in support, B point is movable support and G joint.…
A: Let the reactions at fixed support 'A' be: RAH , RAV , MA. Let the reactions at pin joint 'G' be:…
Q: Draw a free-body diagram of member AG shown in Figure 3. Do not calculate values but label all…
A: According to the details provided in the question, we need to draw the F.B.D. of the member AG and…
Q: In the lattice system in the figure, find the distance a 3 meters and the forces P = 22. Also…
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Q: A truss has geometry and loads as shown in the figure and parameter table. Use method of sections to…
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Q: In the figure shown below, a boom AC is supported by a ball and socket joint at C and by the cables…
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Q: Calculate the internal reactions for the member along section M-M shown in the Figure. 6 lb/ft 9 ft…
A: Since the end A is knife edge supported thus there will be two support reactions i.e. one in…
Q: The triangular block shown in the figure is subjected to the loads P = 1600 lb. and F = 600 lb. If…
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Q: The lamp shown in the figure is supported by a pole AO and cables AC and AB. Each cable can sustain…
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Q: Example 18. The homogeneous bar AB of 300 N is resting as shown in figure Ex.18. Assuming contact…
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Q: Question 4 The prismatic bar AC is supported by a hinge at C and cable ADB that runs through a…
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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: Figure Q2 shows an 11 m long steel beam AC of uniform cross-section, simply supported at left end A…
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Q: Two identical rollers, each of weights W=1000N, are supported by an inclined plane and a vertical…
A: Given, W = 1000 N
Q: A 7.5kg sign is hung off of the end of a 3.7kg metal arm as shown in the figure. (Note that while…
A: Given Data: The mass of the arm is m1=3.7 kg. The mass of the sign is m2 = 7.5 kg. The center of…
Q: In the figure, one end of a uniform beam of weight 440 N is hinged to a wall; the other end is…
A: Consider the FBD as shown below.
Q: 3. The figure shows a frame supported by pins at A and D and carries a triangular load of maximum…
A: In the given example, member DCB will exert a compressive force at point B. We will consider FBDs of…
Q: - The frame shown in the figure is loaded at point E with a force F- 600 N. Calcul ment of force F…
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Q: A plane frame has a pin support at A androller supports at C and E (see figure). Frame segmentsABD…
A: Given data as per question UDL applied on the BD =1.5 KN/m The horizontal force applied at point B…
Q: 13)The Beam in figure below is weightless. A moveable weight(mass)W of 300 Ibm is to be attached as…
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Q: Example: Body M shown in figure weighs (300 N) and the homogeneous bar BE weighs (60 N). Draw the…
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Q: A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape…
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Q: B 芝 9 KN 5m 3 m 3 m 60° In the figure shown, connections at A, B, and C are pin joints. a) Draw the…
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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: A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape…
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Q: The system in the figure is carried by a 50 mm diameter column. If the modulus of elasticity of the…
A: Given, The diameter of column, d = 50 mm Modulus of elasticity, E = 70 GPa The length of column, L =…
Q: Q The two-steel shaft shown in figure have the same diameter and weight 170 lb cach. Neglect the…
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Q: If the beam in the figure below is in equilibrium (A is a pin and B is a roller), determine the…
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Q: A homogeneous 1.5 kN bar AB carries a 2 kN force as shown in the figure. The bar is supported by a…
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Q: In the figure below, the load that the pin at point O can safely carry is 5 kN. In this case, find…
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Q: P-1500 kg 45 Py-4000kg k P:
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Q: In the figure, one end of a uniform beam of weight 130 N is hinged to a wall; the other end is…
A: To find: The tension in the wire. Given: The weight of the one end of the beam is hinged to the wall…
Q: Draw FBD (Free Body Diagram) of the structure shown in the figure below. What type of structure is…
A: FBD of the given structure can be drawn as below: Here, MA = Reaction moment at A VA = Vertical…
Q: The frame shown in Figure below consists of two members (BC and ABD) and it is subjected by the…
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Q: 3. A structure frame is shown in Figure 3 experienced multiple applied forces at joints D and B. The…
A: given; lets take at point D;force (F1)=300Nforce(F2)=400Nlets take at point B;force…
Q: Q3: For the structure shown in Figure, Compute the forces in all pines. 50 Ib 80 Ib 6 ft (20 Degree)
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Q: Isosceles triangle gate AB in the figure below is hinged at A and weighs 1500 N. What horizontal…
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Q: Consider a wheelbarrow carrying a load of 85 kg with its centre of mass as point G, as depicted in…
A: As per the guidelines of BARTLEBY we are subjected to solve only one question at a time. Please…
Q: 8. Calculate the horizontal reaction at O in Fig Q8 due to the load P = 177 N applied to the bar OB.…
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Q: A beam 12m long is resting on supports at each end. If the beam carries loads at the positions shown…
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Q: The frame shown in the figure below is hinged to rigid supports at A and E. Find the force in member…
A: When all forces or moments acting on a structure are balanced, it is said to be in equilibrium. This…
Q: 2. A 12- ft. bar of negligible weight rests in a horizontal position on the smooth inclines in…
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Q: e prismatic bar AC is supported by a hinge at C and cable ADB that runs through a frictionless…
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Q: Q The two-steel shaft shown in figure have the same diameter and weight 150 lb cach. Neglect the…
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Q: A uniform stone slab weighs 400 lb and is suspended by 3 cables and subjected to a downward vertical…
A: From the moment about the x-axis,
Q: Q The two-steel shaft shown in figure have the same diameter and weight 170 lh cach. Neglect the…
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Q: The cantilever truss in the figure is hinged at D and E. Find the force in member DC. 1000 Ib 60 60…
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Q: A weight of 500 N is supported by two metallic ropes as shown in the figure. The values of tensions…
A: Given:
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- TWO SMOOTH CYLINDERS ARE STACKED AS SHOWN IN THE FIGURB. CYLINDER A WEIGHS 2.00 kg WITH A RADIUS TANK 500 MM OF 200MM, AND CHINDER B WEIGHS 100 kg W/ A RADUS OF 100 MM. FIND THE REACTION (R ON THE SIDES OF THE TANK, A F16日REFind the force P needed to hold the 10-m-long cylindrical object in position as shown in figure.4. The access door in Fig. P6-13 is held in the position by cable AB. If the magnitude of tension T in the cable is 50 pound force, find the rectangular components of T acting at A. 10 in. B 10 in. 12 in. 6 in. 20° FIGURE P6-13
- A slab of rock is tilted upwards and is held steady by a rope (CB). The rope is attached to anearby wall (at point B). The slab of rock is of uniform density (50 kg/m2), and is isosceles in hape, as shown in the figure below. Determine the tension in rope CB, as well as the Fx and Fyreaction force components on the bottom edge of the rock where it rests on rough ground. Expressthe reaction force components in Cartesian vector formA string holds and wraps around a solid cylinder (7-kg and R = 8-m). A person pulls the string vertically upward, so the cylinder's center of gravity does not move and is suspended in midair for 7 second. Note that the rotational inertia of the cylinder about its axis is MR2/2, the tension in the string is 8- N. what is the net force on the cylinder in Newton? Note: Do not include the unit in your answer. TThe object that was horizontal before deformation, both shifted downward after the deformation and its axis made an angle of 0.1 degree with the horizontal as shown in the figure. (a) Draw the free body diagram of AB and write the equilibrium equations. (b) Calculate the displacement of point A (8). (c) Calculate the position of the center of gravity of this object (x). (d) Interpret whether the formulas you used to solve the problem are valid according to the stress results you have found. (e) Calculate the forces that will occur in the rods if the object is connected with an additional rod with the same geometry and material in the middle of AB. NOTE: The data "0.1 degree angle with the horizontal" is not valid for (e). 1m 1 m 1,2 m 0.1° O (MPa) 35 28 21 14 e (mm/mm) 0.008 0.016 0.024 0.032 0.040 0.048
- Illustrate the free body diagram alsoThe wheels, axle, and handles of a wheelbarrow weigh W = 55 N. The load chamber and its contents weigh WL = 623 N. The drawing shows these two forces in two different wheelbarrow designs. To support the wheelbarrow in equilibrium, the man’s hands apply a force to the handles that is directed vertically upward. Consider a rotational axis at the point where the tire contacts the ground, directed perpendicular to the plane of the paper. Find the magnitude of the man’s force for both designs.If the crate in the image weighs 100kN, find the force in cable AB (Fb), cable AC (Fc), cable AD (Fd), and the stretch in the spring. PLEASE KEEP ANSWER IN kN and M