Question (4): If the resultant of the three forces and couple M passes through point O, determine M. (70/3 Marks) 150 mm 250 N 150 M· 60° mm 30° 320 N 160 mm 400 N
Q: If the resultant of the two forces and couple * ?M passes through point O, Determine M 150 mm 150 mm…
A: Given forces
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Q: The tension in the supporting cable AB is 10 kN. Write the force which the cable exerts on the boom…
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Q: Determine the resultant moment produced by the forces about point O. 6 ft F₂= 200 lb 30° F₁ = 300 lb…
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Q: Where does the resultant of the two force act?
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Q: Determine the moment of the forces shown about points D, E, F, and G.
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Q: 1] What is the resultant moment of the five forces acting on the rod about point A?
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Q: Given the Position vector R = 2i -j+ 3k (m) and the Force vector F = i +j+k (kN) Determine the angle…
A: Given Position vector = (2i – j + 3k)m Force vector = (i + j + k) kN To find Angle between the…
Q: If the resultant of the two forces and couple M pass through point O, determine M 150 mm 150 M- mm…
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Q: The force F acts on the gripper of the robot arm. The moments of F about points A and B are 210 N ·…
A: Given Data: The moment of force F about point A is 210 N-m. The moment of force F about point B is…
Q: What would be the magnitude of the resultant moment produced by the force F1 about an axis extending…
A: Position vector 0 (0,0,00 A(0,2,1) B(-1.5,2,1)F→=-300i^+150j^+200k^NrAB=-1.5I^…
Q: B1.5 m /C 1.5 m P= 0.8 kN T-1.2 kN 3m 015 m 3 m 2 m Im D - Determine the x-, y-, and z- components…
A: Given figure
Q: 4 kN 1.2 m 3) Three forces are acting on a system as 1.2 m shown. Using the vector method, determine…
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Q: The tension in the supporting cable BC is 800 lb. Write the force which this cable exerts on the…
A: From the question above, Coordinate of C-(6,0,3)Coordinate of B-(5,7,1.5)BC→=i^-7j^+1.5k^unit…
Q: 2. If the resultant of the two forces and couple M passes through point O, detemine M. 150 mm M- 150…
A: Any action that attempts to sustain or modify the motion of a body, or to deform it, is referred to…
Q: Q2/ Determine the resultant moment of the force about point A
A: Given data Forces acting on beam are 100 N, 400 N, 100 N
Q: Ex/ Determine the magnitude and direction of the resultant of the forces shown. 150N 200N 30
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Q: . Determine the x and y components of the resultant force and the resultant couple moment at point…
A: Given Load 500 N on either sides Moment 200 Nm To find Resultant force Resultant couple moment at…
Q: 1] What is the resultant moment of the five forces acting on the rod about point B?
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Q: Please help.
A: Taking the component of force F as shown in the figure,
Q: 2/88 If the resultant of the two forces and couple M passes through point O, determine M. 150 mm M-…
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Q: 2/83: If the resultant of the two forces and couple M passes through point O, determine M. 150 mm…
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Q: Determine the resultant moment of the forces acting about the x, y, and z axes. Suppose that…
A: Find the resulting moments about x,y and z axis.
Q: For the concurrent coplanar force system, shown 200 N 60 45 90 N 100 N a. Calculate the magnitude of…
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Q: The moment produced by each force about point O located on the drill bit, expressed as Cartesian…
A: Given;FA=-40i^-100j^-60k^FB=-50i^-120j^+60k^
Q: Q: Represent the resultant of the three forces and one couple by an 10 points equivalent force R at…
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Q: Force F acts on the frame such that its component acting along member AB is 650 lb, directed from B…
A: Given data: Force in member BA, FBA = 650 lb. Force in member BC, FBC = 500 lb. Draw a labeled…
Q: Three forces act at point O. If it is known that the y-component of the resultant R is -3.5 kN and…
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Q: Determine the magnitude and coordinate direction angles (x, y, z) of the resultant force.
A: Given data: The force F1 = 90 N. The force F2 = 150 N. The force F3 = 200 N. The angle of the force…
Q: Determine the moment of Q about point O. The magnitude of Q is 25 lb. 8 ft B 4 ft
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Q: b) Determine the equivalent moment of force about point A of the system of forces. 141.4 lb ... B…
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Q: The magnitudes of the three forces are F, = 1.8 kN, F, = 1.5 kN, and F, = 1.0 kN. : 2 Compute…
A: Here, resultant of F2 and F3 is asked. Hence, F1 is not included. F2 is resolved in x-y plane F3 is…
Q: Determine the resultant moment of the three forces shown aboutthe x axis, the y axis, and the z…
A: A force that is parallel to a coordinate axis or has a line of action that passes through the axis…
Q: The force F acts on the gripper of the robot arm. The moments of F about points A and B are 210 N-m…
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Q: Problem Number 1: In the given loaded beam determine the resultant force, R and its location from…
A: There is no horizontal force in given problem. Therefore horizontal component of resultant force is…
Q: the magnitude of the force Q is 250N. Determine the moments of Q about point C
A: First find the unit vector in the along direction BD: Position vector of point B: Position vector…
Q: Using the coordinate system shown, determine the components of the Moment vector (M) about the X, Y…
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Q: If the couple moment has a magnitude of 220 N-m, determine the magnitude F of the couple forces.
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Q: Determine the magnitudes of vectors v 1 and v2 so that their resultant is ahorizontal vector of…
A: given; Determine the magnitudes of vectors v 1 and v2 so that their resultant is ahorizontal vector…
Q: The two forces and a couple acting on the beam are equivalent to a single force acting at C.…
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Q: If the resultant (single equivalent force) of the two forces and couple M passes through point O,…
A: For the given system
Q: Given the Position vector R = 5i + 4j + 3k (m) and the Force vector F = 4i – 5j + 3k (kN) -…
A: Given, Position vector, R→=5 i+4 j+3 k (m) Force vector, F→=4 i-5 j+3 k (kN)
Q: Q: Represent the resultant of the three forces and one couple by an equivalent force R at A and a…
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Q: Determine the magnitude of the resultant and vector B if R=A+B. B 35€ 8 in. - 5 in. (8.5 ir.. A = 35…
A: Given data: A=35 lbs Need to determine the magnitude of the resultant and vector B.
Q: Problems: 1. A 30-lb force acts on the end of the 3-ft lever as shown. Determine the moment of the…
A: Given:- To Find :- Moment of the force about point O.
Q: Practice Problem 3.4.8: Determine the resultant of the three forces shown. 0.8 m 20 kN 60 kN 80 kN…
A: P1=20 kNP2=80 kNP1=60 kN
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- 5. Find the resultant of forces A=11.51N (17.3° North of West), B=125.92N (54.7° North of East), C=8.33N (South), D=62.65N (30.5° South of West), E=10N (West) and F=22.11N (30° East of North). 6. Determine the resultant of the forces of the bolt.Where does the resultant of the two forces act? Replace the two forces with a single equivalent force applied at a point on a horizontal line going through point A. Determine the distance d from point A. Your answer will be positive if to the right of A, negative if to the left. 750 N 250 350 mm mm 770 NPlease solve with complete solutions and complete figures and enclose the final answer thank you. Given through the indicated points: A=280kN (12, 6, -4); B=520kN (-3, -4, 12); and C=270kN (6,-3,-6). Determine the resultant of the system of concurrent forces and the direction cosine of each of the axes having the following magnitudes, and passing through the origin.
- Please solve with complete solutions and please please please put all complete figures and enclose the final answer thank you. Dont answer this if there is no figure or diagram. Given through the indicated points: A=280kN (12, 6, -4); B=520kN (-3, -4, 12); and C=270kN (6,-3,-6). Determine the resultant of the system of concurrent forces and the direction cosine of each of the axes having the following magnitudes, and passing through the origin.The three forces of magnitude P can be replaced by a single, equivalent force R acting at point A. Determine the distance x and the magnitude and direction of R.Using the triangle method, determine the magnitude and direction of the resultant and the equilibrant of the 2 given forces. Force A = 316lb / 20° E of S. Force B = 518lb / 15° N of E
- Q-2: (a) Determine the coordinate direction angles of forces F1. (b) Determine the magnitude and coordinate direction angles of the resultant force acting on F = 650 kN F= 800 kN 45 30 the eyebolt.Q1: The 100 lb force of Figure below is the resultant of the couple and four forces, three of which are shown in the diagram. Determine the fourth force and locate it with respect to point А. 100b 50 4 120in -1b 20b 3" 4" . 40bDetermine the x- and y-coordinates of a point through which the resultant of the parallel forces passes. y 20 lb 90 lb 85 lb 30 Ib 16" 7" 13" 13" 25 lb v Part 1 The problem asks us to replace these five forces with a single equivalent force. The new system is shown below. y Find the force R. Answer: R = Ib
- 4. The wrench is subjected to the 200-N force and the force P as shown. If the equivalent of the two forces is a force R at O and a couple expressed as the vector M = 20k N m, determine the vector expressions for P and R. 300 mm 200 N 160 mm Ans. P = 40j N R = -160j NIf F. = 9 KN. e = 30". and o= 45°, determine the magnitude and coordinate direction angles of the resultant force acting on the ball and socket joint -8 KN F - 10 kN 60While cutting a piece of paper, a person exerts the two indicated forces on a paper cutter. Reduce the two forces to an equivalent force-couple system at corner O and then specify the coordinates of the point P in the x- y plane through which the resultant of the two forces passes. The cutting surface is 30" x 30". 5 lb 24 Ib 15" 1" 5" Part 1 There are 2 distinct questions here. We will solve the first question now. Question 1: Replace the two forces shown by an equivalent force-couple system at point O. Find the force part of the force-couple system. Answer: F = i + j+ k) Ib