Replace the system of forces acting on the frame by a resultant R at B and a couple acting vertically through A and C.
Q: 1- Determine and locate the resultant R of the three forces and one couple acting on the beam about…
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Q: The force P has a magnitude of 300 N and is applied at the end C of the rod ABC, as shown. Assuming…
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Q: - If the resultant of the loads shown passes through point B, determine the equivalent force-couple…
A: Forces acting are 45 kN, 54 kN, 18 KN
Q: A 30-lb vertical force P is applied at A to the bracket shown, which is held by screws at B and C.…
A: Given data: The vertical force that is applied on the bracket at point A is p=30 lb The schematic…
Q: Q4 Determine the resultaut of the forces shown, and locate it with respect to point (A)
A: Force and momentum balance based question. The entire amount of force exerted on the object or body,…
Q: (A) Determine the resultant of the two forces and the couple that act on the beam and illustrate in…
A: The cantilever beam is loaded with two point loads and a couple The resultant of the two forces and…
Q: Calculate the combined moment of the couple C and the force P about the axis AB. Use C=80N and…
A: Given: The couple, C = 80 N.m The force, P = 400 N
Q: Forces P and Q of magnitude 250 N and 500 N, respectively, are applied on the bent board as shown.…
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Q: O5) The motor mounted on the bracket is acted on by its 300 N weight, and its shaft resists the 200…
A: Data given - force along x- direction, Fx =-200 i` N Write the force along y-direction, Fy = 0 j`…
Q: Q2: Reduce the system of forces and moment shown to an equivalent two forces and couple .system at A
A: Given data Forces acting on beam are 3KN, 2KN, 7 KN Moment = 600 N-m
Q: The four forces shown act on the rollers of an in-line skate. Determine the equivalent force-couple…
A: In order to find the equivalent force couple system, we need to find out the Resultant force and…
Q: The tension in cable AB is 17 kN. Replace this force as it acts on point A by an equivalent…
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Q: Replace the couple and force shown by a single force F applied at a point D. Locate D by determining…
A: Given data Force = 300N Couple = 60 N-m
Q: Replace the three forces shown by an equivalent force-couple system at point A. If the forces are…
A: Three forces are 160 N, 280 N, 260 N
Q: reduce the given loading system to a force-couple system at point A.
A: Given data Forces acting on beam are 200 N, 180 N, 300 N
Q: three forces with an equivalent force-couple system, with the force acting at O
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Q: Replace the force-couple system acting on the pipe with an equivalent force-couple system acting at…
A: Given, F=40 lb M=90 lb.ft The coordinates of the points, O0 ft, 0 ft, 0 ftA3 ft, 5 ft, 0 ftB0 ft, 5…
Q: Reduce given system to force couple system.then determine distance x to right point of O at which…
A: Appl the equilibrium of forces in the vertical direction. ΣFy=1.4 kN-2 kN×cos20°=-0.479 kN Appl the…
Q: o and (b) point b
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Q: Replace the force system by an and couple moment at point O. equivalent resultant force
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Q: Replace the force and couple system acting on the frame with an equivalent resultant force and…
A: Given Load at C = 50 lb Load at vertical beam = 150 lb Moment = 500 lb. pie To find Resultant force…
Q: Replace the system of forces shown below by an equivalent force through O and a couple through A and…
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Q: The equivalent resultant force acting on the beam is zero and the resultant couple moment is 7 kN⋅m…
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Q: Two couples act on the fihme. If the resultant couple moment is to be zero, determine the distance d…
A: Given data: The resultant couple moment is zero, MR = 0. Consider the moment in the…
Q: The magnitude of the moment of force P about point O is 200 kN • m. Determine the magnitude of P.
A: GIVEN:Mo=200 kNm TO FIND: The magnitude of P.
Q: couple system, with the force acting at point O, that is equivalent to the force and couple acting…
A: Given: ABCD lies on vertical plane i.e. inclined 40 degree to yz plane CD makes angle 30 degree…
Q: . Determine the resultant couple moment acting on eam
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Q: For each of the six diagrams replace the forces with an equivalent force-couple system at A. Note…
A: Note:-as per our guidelines we are supposed to answer only the first 3 sub-parts. Kindly repost…
Q: Replace the force system shown by an equivalent force-couple system with the force acting at point…
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Q: Compute the moment of the 100-lb force about A, (a) by using the definition of the moment of a…
A: Given that: Magnitude of the force = F = 100 lb It is acting at B at 60 o It is required to…
Q: (a) Replace the force system shown with a force-couple system with the force acting at point O. (b)…
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Q: Find: The equivalent resultant force and couple moment acting at A.
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Q: A person pushing on a lever The moment created at B by the forces at A and C
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Q: The combined action of the three forces on the base at O may be obtained by establishing their…
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Q: If the force (90 lb) is replaced by a force at point D and a couple whose forces act horizontally at…
A: The best way to replace a force to any other point in the same plane is to apply two equal and…
Q: Replace the three forces shown by an equivalent force-couple system at point A. If the forces are…
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Q: Replace the wrench shown with an equivalent system consisting of two forces perpendicular to the y…
A: Forces acting in x direction are Ax+Bx=0Bx=-Ax⋯⋯⋯⋯⋯(I) Forces acting in z direction are…
Q: Replace the two forces with a single force at point A and
A: To fin d:- Force and moment about A
Q: Replace the force system on the post by an equivalent resultant force and a couple moment MR at…
A: The free-body diagram is, Ballance the forces in x and y directions…
Q: - Determine and locate the resultant R of the three forces and one couple acting on the beam about…
A: ∑Fx=0Rx=0∑Fy=0Ry=5-3-8=-6 KNR=Rx2+Ry2=02+(-6)2=6 KN
Q: Four forces are applied to the machine component ABDE as shown. Replace these forces by an…
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Q: Replace the force system acting on the pipe with an equivalent force-couple system with the force…
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- Replace the system of forces acting on the frame as shown by a resultant R at A and a couple acting horizontally through B and C. Force on top 10 kN, bottom left is 40 kN, and bottom right is 50 kN. 1m A 3 m 2 m 4 m OR= 20KN, B = 95KN, C= -95KN OR- -20KN, B = -95kN, C = 95KN OR= 20KN, B = -95KN, C = 95kN OR=-20KN, B = 95KN, C = -95kN mathalino,com4. A machine component is subjected to the forces and couples as shown. If P = 60 N, determine the magnitude and direction of the resultant force as well as the location where the resultant force passes through vertical line GF and horizontal line GH. 15 200 N 50 mm 520 mm E 50 mm 240 mm 42 N-m D 120 N 70⁰ 40 N-m 640 mm H 80 N 180 mm B +50mm Ans: (a) 0.365 m above G (b) 0.227 m to the right of G* Q/ Determine the resultant couple moment acting on the triangular shown: 600 N 400 KN 600 N 250 N 0.6 m 40° 1 m 0.6 m 40° 400 KN 250 N
- Q4/ By using the transformation of the couple, replace the three couple of fig. by one couple with the forces acting horizontally at A and B 2m 150N 150N 250N 250N : 2m 3m 5m A 200N 200NQ1: Determine the moments about point ( A ) due to the forces applied on the cantilevered beam. 4 KN 2 m 6 kN E2 m 2 m -Determien the resultant couple moment acting on the pipe assembly.
- Determine the resultant R of the two forces shown by applying the parallelogram rule, from the following answers which of them is correct: 600 N 400 N 60 R= 629 N R = 700 N R= 600 N R= 529 N R = 500 NQ2/ F=4 kN Determine the projections Pa and Ph of the 4-kN force F on to the a- and b- axes. 30° 40° T15° --- - ----- Q3/ The force of magnitude F acts along the edge of the triangular plate. Determine the moment of F about point O, using scalar method (Varignon's theorem) only. h F b.Q4/ Find the value of d of the parallel force system at which the resultant of the two forces acts. 650N 20cm 40cm 600N
- (Q1) Replace the system shown below by a single force at B and a couple. 700 N 30 450 N 300 N 60 1500 N-m 4 m -3 mASSIGNMENT 1 Determine the Resultant of the Forces in the system below. yT 1250KN 726 KN 65° 4 x 318 KN DUE A THURSDQ2/ Determine the magnitude of the moment of force F about segment OA .of the pipe assembly as shown in Figure Joli 5 0.5 m F= 300 N B 0.5 m 0.3 m. 0.4 m <0.1 m y 0.2 m