The magnitude of the moment produced by force Fabout segment AB of the pipe assembly is equal to. F = {-20i +20j + 15k} N 4 m 3 m 4 m B
Q: 3. If blocks A and B of mass 10 kg and 6 kg, respectively, are placed on the inclined plane and…
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Q: Determine the moment at B in kiloNewton-meters (kN-m)
A: Given data : uniformly distributed load =19.2 kn/mSupport :1: Pinned support2: Roller support
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Q: hinge D. Pr B. G A = 1.01 m = 2.02 m =. 1.505 m 1. 4.505 m P1 = 6.06 kN P2 = 24.04 kN -. Compute the…
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A: To Determine Vertical Reaction at B, VB
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Q: e weight W = 9 kN hangs from the cable which passes over the pulley at F. Neglecting the weights of…
A: To find reaction at roller support E
Q: Refer to the structure below and carry out the following tasks: 30kN 40kN UDL = 15KN/m 1m 4m 3m A B…
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A: The given figure is shown below:
Q: Determine the magnitude of the moment of force F about segmentOA of the pipe assembly shown.
A: Following is the figure b:
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Q: Q3. Determine the reactions at the pin ( A) and the roller ( B ). 80N 60 5m 150 N A 4 m 5m 3m FON Ý…
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Q: Determine the vertical reaction at B for the beam shown below. 222.5 kN 22 kN/m 135.7 kN - m 30 tamt…
A: Appreciate if there is detailed work with explanation and finds you helpful for ease of…
Q: Determine the reactions on the beam. 20 kN 20 kN 20 kN 20 kN B 50° F3m+3 m–3 m–3 m- m-3 m- 8 kN
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Q: 100 Kg A C D - 3.00 m -イ 5.00 m 4.00 m 300 Kg
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Q: 6–81. The hoist supports the 125-kg engine. Determine the force the load creates in member DB and in…
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Q: Determine the vertical reaction at B for the beam shown below. 222.5 kN 22 ΚN/m 135.7 kN m 30 tomt…
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Q: Draw the FBD. Then, determine the reactions at A and B. 650 N 500 N 30° 300 N 1500 N m 60° B 3 m -5…
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Q: C 21 kN/m 2kN/m 6.6m 2.1m
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Q: Determine the reaction at the roller support in N. 100 N 200N 300 N 45° 30 I m 1 m i O 205 305 285 O…
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Q: Determine the vertical component of the reaction By at the pin support B 30 kN 50 kN to B D A 1 m 3…
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Q: For the frame shown, determine the vertical force at C in (N) if the cylinder has a mass of 230 Kg.…
A: Let's make the free body diagram of the given problem: m = 200 kg
Q: 2. If blocks A and B of mass 15 kg and 3 kg respectively, are placed on the inclined plane and…
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Q: Given that the mass of the engine is 350 kg, find a) Support reactions at A and D. b) The forces at…
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Q: Determine the support reaction of the roller at point B given the following loads: C = 245 N/m D =…
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Q: Show your step-by-step solution.
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Q: a) Determine the vertical reaction at support A. 8 k/ft 4 k/ft .…………. A B 30 ft
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- Consider the object shown. Suppose that P = 390 N . Follow the sign convention. A) Determine the internal normal force at point C. NC = ? B) Determine the internal shear force at point C. VC = ? C) Determine the internal moment at point C. MC = ?The 300N block rests upon a level plane for which the fk is 0.20. A force P = 100N, directed at 30° from the horizontal pulls the block and moves 80m starting from rest. If the 100N force is then removed, how much further will it travel?Water flows at a rate of 107L /s round a 1510 contracting pipe bend which lies in a horizontal plane. The diameter at the bend entrance is 771mm and at the exit 418mm. If the pressure at the entrance to the bend is 256kN/m2, determine the resultant force in the Horizontal direction (taking to the Left as positive) exerted by the fluid on the bend, correct to the nearest N. (Use π = 3.14)
- Determine the bending moment 2.25 m to the right of point A for the beam shown below if P = 1705 N, T = 3205 Nm, a = 0.95 m, b = 0.97 m, and c = 1.15 m. Round of the final answer (in N m) to four decimal placesWhat is the Maximum moment in kN-m. Given: w1 = 46, w2 = 13, a = 3, b = 3, and c = 3.a. If the equivalent single force of the system is 297 N actingup along the y-axis, determine the magnitude and directionof F2 if F3=248 N and F1=391.78 N and α=69°.b) If the equivalent single force of the system is zero,determine the magnitude and direction of F1 and itsdirection if F3=497 N and F2=377 N and β=31°.c) If the equivalent single force of the system is -150i+90j N,determine the magnitude and direction of F2 and itsdirection if F3=117 N and F1=274 N and α=30°.
- What isbthe maximum moment in kN-m. GIVEN: w1=47, w2=18, a=3, b=3, c=3The force acting at A is F = 10i + 20j − 5k kN. Knowing that the moment of this force about the y-axis is 8j kN · m, determine the distance b and the moment of F about point O.C0nsider the frame bel0w where f0rce A = 55 N acts 0n p0int Q, f0rce B = 34 N acts on p0int P, and force C = 42 N acts on p0int M. Replace the system of f0rces acting on the frame with two f0rces, one acting on p0int O and the other acting vertically at point P. Calculate the magnitude and direction of the vertical f0rce acting on p0int P, FP, and the force acting on p0int O, FO.
- The cylinder of weight, W, shown below is being hoisted up with the force F against the vertical wall. If us = 0.57 a. Determine the reaction force (resultant of normal force and frictional force) against the vertical wall. b. Calculate the force, F, needed to set the cylindrical roller in motion W or W1 (in kN) = 516Draw the bending moment diagram of the system under the influence of external loads below. Calculate the vertical displacement value at the intersection of the horizontal beam and vertical column member? (EI= 50000kNm2)Given: Signage subjecting 1.606 kPa pressure. Signage = 2.404 m x 1.01 m Offset of signage from pole center = 0.404 m Signage center distance from the ground = 8 m 1. Determine max shear force at the base of pole in kN. 2. Determine max moment at the base of pole in kN-m. 3. Determine max torque at the base of pole in kN-m.