Determine the magnitude of the force which member CD exerts on the pin at C.
Q: Determine the force in member BF. The force is positive if in tension, negative if in compression.
A: To find: The force in member BF. FBD: The free body diagram is shown below:
Q: Determine the force in member BE of the loaded truss. Th
A: Given: TO determine: Force i n member BE
Q: Determine the force in member CD of the loaded truss.
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Q: Determine the forces acting on specified pin connections of the frame (pts A, B, C, D) if the…
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Q: In the truss loaded as shown, determine the force in the member BE.
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Q: Determine the force in the member FD (kN)? Determine the force in the member BD (kN)? What is the…
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Q: The 1200-kg car is being lowered slowly onto the dock using the hoist A and winch C. Use triangle of…
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Q: Determine the forces in the members marked by "x". (DG, EG, EH)
A: Free body diagram of symmetry Now using equilibrium equation in x-direction .…
Q: Determine the forces in members AE, BE, and ED.
A: Draw the free-body diagram of the member, Apply equilibrium equation of forces in the x-direction,…
Q: Determine the forces in members BC and BG of the loaded truss. The forces are positive if in…
A: Data given-
Q: Determine the forces in members CD, CJ, and DJ.
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Q: Determine the components of all forces acting on each member of the loaded frame.
A: Given:
Q: the tension developed in cables ABAB and ACAC cannot exceed 270 lb Determine the largest weight of…
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Q: te the force in each member of mber is in tension or compression.
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Q: Determine the forces in the members marked by "x". Methods of section.
A: Draw a free-body diagram of the given truss. Apply force equilibrium in a horizontal direction.…
Q: In the truss loaded as shown, determine the force in the member BE
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Q: Using the Method of Joints, determine the force in each member of the truss loaded as shown assuming…
A: to find force in member of truss
Q: Q3) Determine the force in member CD of the loaded truss.
A: Apply method of joints at C.
Q: Determine the force in each member of the loaded truss
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Q: Determine the force in member AB of the truss shown by using the method of joints or sections. y
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Q: Determine the forces in members CD, CF, BC, CG and GF.
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Q: Determine the force in members GH, GB, and BC, and state whether the members are in tension or…
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Q: e the force in member BF
A: By using Methods of joint ∑MD=06RA=412+324RA=412+3246RA=20kNFor joint…
Q: Determine the magnitude of the pin force at B.
A: The free body diagram of the section AB is as follows: Calculate the moment about point B is as…
Q: Determine the force in member BF.
A: Need to find the force ( Member BF)
Q: Q3/ Determine the horizontal and vertical components of force which the pin at .C exerts on member…
A: Given data: - The vertical load applied on CB is P = 2000 N. The distance between B and load P is…
Q: Q3/ Determine the horizontal and vertical components of force which the pin at C exerts on member BC…
A: The free-body diagram of member BC can be drawn as below, Here, FAB is the reaction at B, Cx and Cy…
Q: Determine the force supported by the roller at E.
A: Drawing the free body diagram of member as shown below, Consider member AC, Taking moment about A,…
Q: Determine the Force in member BD
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Q: From the given trusses below, determine the force in the member FC (kN)
A: Given data Given truss system
Q: Determine the force components at B and C, as they act upon member AC.
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Q: Determine the magnitude of force at the pin A and in the cable BC needed to support the 560-lb load.…
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Q: determine the force member BD and CD (kN)
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Q: Determine the force developed in the member BC and reactions at the pin support A. SV.
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Q: Solve for the forces in each of the member. Identify if compression or tension.
A: Given truss To determine Forces in each of the member and identify wheteher it is compression or…
Q: Determine the force in the member GH(kN), BC(kN) and CG(kN). Is the member CH tension or…
A: Let RA and RE are the vertical reaction forces in upward direction at A and E. Taking moment about…
Q: 4. Determine the horizontal and vertical components of force at pins A and D.
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Q: Determine the magnitudes of the force R and couple M exerted by the nut and bolt on the loaded…
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Q: Determine the force in the member BC (kN)? Determine the force in the member GH (kN)?
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Q: Determine the forces in members BC and CG. The forces are positive if in tension, negative if in…
A: Given data Given truss system
Q: The 46-lb rectangular access door is held in the 90° open position by the single prop CD. Determine…
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Q: Determine the force in each member of the truss. Note the presence of any zero-force members.
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Q: Determine the forces in members BC, CE, and FG. Use method of sections.
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Q: From the given trusses below, determine the force in the member FG. (kN)
A: Given data Given truss system
Q: etermine the force in each member of the truss and state if the members are in tension or…
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Q: For the pair of 26-lb forces applied to the handles of the crimper tool, determine the crimping…
A: tan θ = 0.90.25 = 3.6 θ = tan-1 (3.6) θ=74.475°
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- 8. A 20 kg droid rests on 5.0 m long shelf supported by two cables as shown. The mass of the shelf is 10 kg. Find the tension in the left-hand cable. droid H0.60 m0.80m F0.60 m- 3.8mWhat would be the resultant force Fof the triangular distributed load and its location d measured from point A. 90 lb/ft 3 ft 5 ft 2 ft > Select one: O a. F= 225 Ib and d= 3.67 ft O b. F= 300 Ib and d=2.5 ft O C.F= 450 ib and d=3.67 ft O d. F= 300 Ib and d= 1.67 ft(Resuttant Force) QI/ The weights of the various components of the truck are shown. Replace this system of forces by an equivalent resultant force and specify its location measured from B? fx-570ES PLUS UPAM Ans: R=- 10750 lb, d = 13.7 ft MODE SETUP ON 10 BIN log cos'E 3500 lb 5500 IbV COS V1750 lb SOD 14 ft INS 31 211 EL
- Replace the force system acting on the post by a resultant force. * 0.5 m B- 500 N 1 m F0.2 m 250 N 30 1 m 300 N 1 m1. force in each member. Compute the 2000 lb 3000 b 0° 60° A REH REN C 10' 10' RA 4000 1b REVQ2/ find the magnitude f force at members AD and FG by using section method B 2 m 30 3 kN 2 m A 4 kN 2m 2 m H
- For the problem shown, determine the magnitude of the force in member EF given that x = 2.3 m, y = 1.1 m, and w1 = 565 N/m. Note that members DC and EF are two force members. Write your answer in units of N to one decimal place. w1 N/m y m 3 m X 3,075.3 D E Correct Answer: 3,241.9 x m с F B 3 m y mDetermine the tension for T1. 0.0 T₁ 235 lbs 75° 230.52 lbs 256.82 lbs 290.32 J 38° 2 300 lbs.of tower=5om height use 3. Compute for the cable forces acting on the tower shown. /-60 m– 60 m B 40 m 40 m 40 m
- 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.The cable BC carries a tension of 750 N. Write the force in the cable as a vecto 12m- C 0.7 m 1.6 m.2. The portion of truss shown represents the upper part of a power transmission line tower. f0.60 m The 2.7 kN force is 60° from the vertical. For 0.60 m the given loading, determine all zero force 1.60 m -221 m -2.21 m- E members. 1.2 kN H 2.7 kN 1.20 m t0.60 m 10.60 m a. Use the Method of Section to find the forces in members BC, EH and EJ; b. Use the Method of Joints to find the forces in members BD and DE; -2.97 m 1.2 KN 1.20 m 1.2 kN 10.60 m Fo.60m Answers: M FBc = 0.9878 kN, T, FEH = 2.9228 kN, C, FEJ = 0.5841 kN, C, FBD = 1.3171 kN, T, FDE = 0.3576 kN, C 1.2 kN 1.2 kN