3-77. Replace the loading acting on the post by an equivalent resultant force and couple moment at point B. 650 N 500 N 300 N 1500 N - m 60 -3 m -5 m-
Q: 4-7. Determine the moment of each of the three forces about point A.
A: As per our guidelines, experts can provide solution to only one problem in case of multiple…
Q: *4-8. Determine the moment of each of the three forces about point B.
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Q: *4-60. Determine the magnitude of the moment produced by the force of F 200 N about the hinged axis…
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Q: F4-27. Replace the loading system by an equivalent resultant force and couple moment acting at point…
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Q: 3-78. Replace the force system acting on the post by a resultant force and couple moment at point A.…
A: Determine net horizontal and vertical forces Magnitude of Resultant force can be determined as
Q: *4-60. Determine the produced by the force of F = (the x axis) of the door. magnitude of the moment…
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Q: 4-101. Replace the force system acting on the post by a resultant force and couple moment at point…
A: Given data: F1=300 lbF2=150 lbF3=200 lb Need to determine the magnitude of the resultant force and…
Q: *4-60. Determine the magnitude of the moment produced by the force of F = 200N about the hinged axis…
A: Given that magnitude of the force F = 200 N It is required to determine the magnitude of moment…
Q: F3-25. Replace the loading system by an equivalent resultant force and couple moment acting at point…
A: Resolving the inclined load into horizontal and vertical loads: Freebody diagram:
Q: *3-116. Determine the equivalent resultant force and couple moment at point O. 9 kN /m -w = () kN/m…
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Q: *3-68. Determine the required magnitude of F. F, and F, so that the resultant couple moment is (M.)R…
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Q: *4-60. Determine the magnitude of the moment produced by the force of F = 200 N about the hinged…
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Q: F3-21. Determine the magnitude of F so that the resultant couple moment acting on the beam is 1.5 kN…
A: Given data: The resultant moment acting on the beam is 1.5 kNm (clockwise is taken as positive)…
Q: 3-71. Replace the force system by an equivalent resultant force and couple moment at point O. 455 N…
A: Given data: The magnitude of the first force is; F1 = 455 N. The magnitude of the second force is;…
Q: *3-72. Replace the force system by an equivalent resultant force and couple moment at point P. 455 N…
A: Let's determine the net force in the x-direction with the help of the given diagram,
Q: 3-75. Replace the loading acting on the beam by an equivalent resultant force and couple moment at…
A: Given Data: Force at a distance 1.5 m is FA = 450 N at an angle θ = 30°. Force at distance 3.5 m is…
Q: 4-161. Replace the loading by an equivalent resultant force and couple moment acting at point 0. w =…
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Q: 3-83. Replace the loading by an equivalent resultant force and couple moment at point O. 0.5 m 0.7 m…
A: Writing the points at which the forces are acting.
Q: 4-138. Replace the loading by an equivalent resultant force and couple moment acting at point O. 50…
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Q: 4-27. The connected bar BC is used to increase the lever arm of the crescent wrench as shown. If the…
A: We are suppose to solve only one question. Please post other question as a separate question.
Q: 4-110. Replace the force of F = 80 N acting on the pipe assembly by an equivalent resultant force…
A: Given:_F=80 Na=400mm=0.4mb=300mm=0.3mc=200mm=0.2md=250mm=0.25mθ=40°ϕ=30°To find:-Resultant force…
Q: *4-168. Determine the magnitude of the moment of the force Fe about the hinged axis aa of the door.…
A: Given data: FC=250 N Need to determine the magnitude of the moment of the force.
Q: *3-60. In order to turn over the frame, a couple moment is applied as shown. If the component of…
A: Given Data: The force acting on the frame is F. The perpendicular distance between the forces is d…
Q: *4-60. Determine the magnitude of the moment produced by the force of F = 200 N about the hinged…
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Q: 3-115. Determine the length b of the triangular load and its position a on the beam so that the…
A: Given Data: The beam has two distributed loads one is triangular with a span of b and the other is…
Q: 3-67. If 5 - 100 N, 5 - 120N, and 5 - 80 N, determine the magnitude and coordinate direction angles…
A: Given data and data from the figure: Here, r: the distance between the couple forces.
Q: *3-76. Replace the loading acting on the post by an equivalent resultant force and couple moment at…
A: Draw a diagram for the problem and resolve the given forces along the horizontal and vertical…
Q: *4-32. The pipe assembly is subjected to the force of F = {600i + 800j – 500k} N. Determine the…
A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…
Q: *4-156. Determine the lengthb of the triangular load and its position a on the beam such that the…
A: According to the details provided in the question, we need to calculate values a and b
Q: 3-55. Determine the required magnitude of force Fif the resultant couple moment on the frame is 200…
A: Given data Resisting moment at A M A = 200Nm (clock wise) To determine the required magnitude of…
Q: 4-74. The caster wheel is subjected to the two couples Determine the forces F that the bearings…
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Q: *3-84. Replace the force of F- 80 N acting on the pipe assembly by an equivalent resultant force and…
A: Given data as per question Force = 80 N
Q: F3-29. Replace the loading by an equivalent resultant force and couple moment acting at point O. F,…
A: Given, Force acting at point B, F1=-300 i^+150 j^+200 k^ Force acting at a point C, F2=-450 k^
Q: *4-60. Determine the magnitude of the moment produced by the force of F = 200 N about the hinged…
A: Given dataCoordinates of the point A (2.5,1×cos150,1sin150)A(2.5,0.999,0.259)B(0.5,0,2)C(2.5,0,0)To…
Q: F4-25. Replace the loading system by an equivalent resultant force and couple moment acting at point…
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Q: F3-19. Determine the resultant couple moment acting on the beam. 400 N 400 N 200 N 0.2 m 200N -3m…
A: Given, Here in the figure MA is the resultant couple moment about A.
Q: 4-101. Replace the loading system acting on the beam by an equivalent resultant force and couple…
A: For the given beam To determine Replace the force and moment with equivalent load and moment at O…
Q: 4-60. Determine the magnitude of the moment produced by the force of F 200 N about the hinged axis…
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Q: P3-5. In each case, determine the x and y components of the resultant force and the resultant couple…
A: Applying force balance in vertical direction, ∑FV=0RO+RB=400 N+500 N×35RO+RB=700 N......1 Here, RO…
Q: 4-101. Replace the loading system acting on the beam by an equivalent resultant force and couple…
A: It is required to replace the loading system acting on beam by equivalent resultant force and couple…
Q: *4-60. Determine the magnitude of the moment produced by the force of F = 200 N about the hinged…
A: Find the magnitude of moment of force 200 N about x- axis.
Q: *4-8. Determine the moment of each of the three forces about point A
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Q: P3-5. In each case, determine the x and y components of the resultant force and the resultant couple…
A: Resultant force acting along the x direction is Fx=35500 N+100 N=400 N Thus the resultant force…
Q: 4-98. Determine the resultant couple moment of the two couples that act on the pipe assembly. The…
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Q: *4-60. Determine the magnitude of the moment produced by the force of F = 200 N about the hinged…
A: Given F=200N
Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN- m clockwise, determine the…
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Q: *3-40. Determine the magnitude of force F in cable AB in order to produce a moment of 750 N. m about…
A: Given: 1.2 m = 4 ft 1.8 m = 6 ft 750 N.m = 553 lb-ft Coordinates of AB and CD:
Q: 4-51. Determine the moment of the force F about the Oa axis. Express the result as a Cartesian…
A: Given data Force vector(F) = {50î -20ĵ +20k̂} Position vector of point O (r) = î -2ĵ + 6k̂ Moment of…
Q: 3-74. Replace the loading acting on the beam by an equivalent force and couple moment at point B. 3…
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Q: 4-143. Replace this loading by an equivalent resultant force and specify its location, measured from…
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- Determine the required magnitude of F1, F2, and F3 so that the resultant couple moment is (Mc)R = [50i - 45j - 20k] N ⋅ m.The bar shown in the following figure is subject to a force of intensity of 60N in the sense of C to B. Mark the alternative that correctly presents the moment vector created by this force in relation to the support at point A. Choose the right answer: a) M = (120,-160,100) b) M = (160,-80,160) c) M = (160,-120,100) d) M = (-120,-60,120) e) M = (-160,-80,160)The shaft is supported by a thrust bearing at A and a journal bearing at B. Determine the x, y, z components of internal force at point C. Determine the x, y, z components of internal moment at point C.
- Determine the moment of a force F=(0.5i-2.0j+7.0k) kN acting at A(5, -4, 0)m about axis BC where B (6,8,4)m and C (-6, -5,8)m. Also express the result in vector form. What is the prependicular distance between F and the axis BC?d= 3.8m (on the figure of the beam) Determine the equivalent resultant force and determine the equivalent couple moment at point O.*4-48. Determine the moment about point O of each force acting on the pipe assembly. Add these moments and calculate the magnitude and coordinate direction angles of the resultant moment. Prob. 4-48 0.8 m F₁ = {30i+20j - 30k} N A 1.20 m 0.4 m y F₂= {60i 10j - 35k) N
- The rigid pipe is subject to the following loads. Neglecting the weight of the pipe, determine the moment at O. SOLVE THE FF Vector component form of 50-lb force (ANSWER: 25.000i +0j -43.30k lb) Magnitude of the resultant force (ANSWER: 78.10 lb) Position vector of the 50-lb force from point O to its point of application on the pipe. (ANSWER: -15i -10j +12k inch) Moment at point O, in vector component form. (ANSWER: 1153.01i -829.52j +250.00k lb-in)The 47-N force P is applied perpendicular to the portion BC of the bent bar. Determine the moment of P about point B and about point A. Moments are positive if counterclockwise, negative if clockwise.Determine the magnitude of the moment of the force about the y-axis My. Answer in N-m.
- Determine the moment of each force acting on the handle of the wrench about the z axis. (NOT a axis NOT a axis NOT a axis!!!!!!!!!!!!!!!) Take F1 = { -2i + 4j - 8k } lb, F2 = { 3i + 2j - 6k} lb.(a) Replace the force F=2800i+1600j+3000klb acting at end A of the crank handle with a force R acting at O and a couple-vector CR. (b) Resolve R into the normal component P (normal to the cross section of the shaft) and the shear component V (in the plane of the cross section). (c) Resolve CR into the twisting component T and the bending component M.Calculate the moment MO of the 190-N force about the base point O of the robot. The moment is positive if counterclockwise, negative if clockwise.Assume F = 190 N, a = 600 mm, b = 420 mm, c = 230 mm, θ= 56°, and ϕ= 30°.