Find the resultant of two forces equal to 50 N and 30 N acting at an angle of 60°. [Ans. 70 N ; 21.8°
Q: Use the graphical method to find the magnitude and direction of the resultant of these forces. 60°…
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Q: Q2/ Find out the Resultant Moment of two forces shown in Fig. (2) about point O. 50 cm Fig. (2) (12…
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Q: Get the resultant of the following forces. A = 245 N, east B = 175 N, 30° southeast
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Q: B/ Determine the resultant of the force system shown in Figure (1B) and show it on a sketch with…
A: Given :- To Find:- Resultant of the force system given above Distance/location of the resultant…
Q: The 400 N force acting on the frame as shown in figure is to be resolved into two components acting…
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Q: A1/ For the shape below, the Resultant of three forces (200N, F1 and F2) is 600N: (a) the force F1…
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Q: ال الثاني ON is the resultant of four forces, one of these forces is unknown Find t e and its…
A: GIVEN:
Q: 1. The resultant of two equal forces 'P' making an angle '6', is given by A. O 2P sine/2 B. O 2P…
A: When two forces P and Q are making an angle θ, resultant of them is given by, R = P2 + Q2 + 2 P Q…
Q: Q1:- For the two force systems shown below, find the following: 1. The resultant force and its…
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Q: The 370 N force acting on the frame as shown in figure is to be resolved into two components acting…
A: By using lami,s principle theorem we find out the angle between AB and AC. By using example can…
Q: For the two force systems shown below, find the following: 1. The resultant force and its…
A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…
Q: 60° 500 pd
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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: The magnitude of the vertical force W is 160 N. The direction cosines of the position vector from A…
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Q: Q.2 The resultant of the force system shown in Figure (2) is a vertical force of 1250N. Determine…
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Q: The tension in cable AB is 1425 N and in AC is 2130 N, Determine; a- The unit vector of each cable
A: TB/A and TC/A are Given: TB/A = 1425 N TC/A = 2130 N
Q: FR is the resultant of the forces F1, F2 and F3. Find the magnitude of force F2 and the distance x.…
A: As the figure in the question can be considered as the free body diagram and mark points A, B, C, D…
Q: Find the resultant of the two forces ?shown in fig using cosine and sine laws 14 kN 30 8 kN
A: Given dataForce F1 = 14kN @300 to horizontal towards leftForce F2 = 8kN towards rightTo determine…
Q: Two forces of 100 N and 150 N are acting simultaneously at a point. What is the resultant of these…
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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: With Cartisian coordinates, express a force vector F, where 01 40°, 02 = 40°, and F = 480 lb. %3D…
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Q: QI: The forces shown in fig. Determine the magnitude and direction of their resultant Q= 60 N 25 P…
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Q: A 60° 3 kN 40° 2 kN
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Q: The resultant of two equal forces 'P' making an angle '0', is given by
A: Given that Two equal forces P are at an angle theta. It is required to determine the resultant of…
Q: The magnitude of the vertical force W is 160 N. The direction cosines of the position vector from A…
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Q: The resultant of the force system shown is a force-couple R and C* acting at point O. Determine the…
A: Given data: The force 4 kN acting in the negative x-axis direction. The force 6 kN acting in the…
Q: Q1) At point A, the four forces l's, l'c, F'p and l'e act, the lines of action for these forces are…
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Q: 2. The resultant of three parallel loads is 30 lb acting up at 10 ft to the right of A. If the loads…
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Q: . Determine the magnitude, direction and location of the resultant of the four parallel forces shown…
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Q: The resultant of the two forces, when they act at an angle of 60° is 14 N. If the same forces are…
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Q: Two forces F1 and F2 act upon q body in such a manner that the resultant force R has a magnitude…
A: Given data, R=F1 And F1=10 lbs.
Q: Q2/ Find out the Resultant Moment of two forces shown in Fig. (2) about point O.
A: GivenF1=300 NF2=200 N
Q: The 400 N force acting on the frame as shown in figure is to be resolved into two components acting…
A: Given Data: The force acting at point A is F=400 N The force acting along AB is FAB=600 N The…
Q: A particle is subjected to the action of two forces: F1 = 4 i+ 7j+7 k [kN] and F2 = 5 i - 6 j - 5 k…
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Q: Ql:- For the two force systems shown below, find the following: 1. The resultant force and its…
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Q: Given: T= 300 N,P = 450 N,F = 200 N, A = 45, B= 30°,C 20 Find: magnitude and direction from u axis,…
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Q: The resultant of two forces, one in the negative x direction and the other In the negative y…
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Q: a1: In the Figure 1, two forces (P & Q) are acting on the same fixed point A. Find the resultant of…
A: A) Graphical solution Take 1 cm = 10 N
Q: Bod Dater mine the magni tude of the resultant and direction 200 N 30 300 of the four forces 40…
A: The given force system is shown below.
Q: Calculate the resultant of the following concurrent forces, acting on a point as shown in figure1.12…
A: Given:
Q: Find the magnitude of the resultant of two forces. Angle 'C- 5.00 degrees. Your Answer:
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Q: The resultant of moments of forces depends on: All the above. O The directions of the applied…
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Q: Determine the magnitude and coordinate direction angles of the resultant force acting at A. Fg= 900…
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Q: Find the resultant force and direction.
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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: Determine the magnitude and coordinate direction angles of the resultant force acting at A. FB= 900…
A: A position vector for a line representing with two end points can be obtained by subtracting the…
Q: Find the angle between two equal forces P, when their resultant is equal to (i) P and (ii) P/2
A: Resultant of two forces P1 and P2 is given by, R = P12 + P22 + 2 P1 P2 cos θ Where, θ = Angle…
Q: A 1000-lb force is resolved into components along AB and AC as shown below. If the component along…
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Q: 1. Find the magnitude and location (meters) of the resultant of the following forces acting on the…
A: Given :- To Find:- Magnitude and location of the resultant force.
Q: äbäi Find the resultant of the force ?system shown in fig 7000 N 5000 N 5900 N 45 50°
A: Solution Horizontal force H = 7000 cos 90 - 5000 cos 50 + 5900 cos 45 = 958 N
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- Q2: Force F, which has a magnitude of 260 N, acts along a line passing through points A (-2,-1) and B (3,4). The grid units are in [m] and counter-clockwise moments are positive. By using Vectors, determine the moment of the force about points C (0,9). C A BQ2: Determine the magnitude and coordinate direction angles [a, B. y] of the resultant force acting at A. -1 ㅓ +1; 1 00 A 6 ft 2 ft Z Fc = 490 lb FB = 600 lb 4 ft 2 ft 3 ft B 4 ft 4 ftQI) At point A, the four forces Fs, Fc, Fp and Fe act, the lines of action for these forces are given by the straight lines AB, AC, AD and AF, as shown in Figure 1. Coordinate the points are: A 3 B 2. D 4 12 cm Figure 1 The magnitudes of the forces are: F7 KN, F= 3 KN, F=9 KN and F= 13 KN. Represent this force Facting on the point 4 as a Cartesian vector and determine its direction.
- The three forces act on the rod in the figure at points A, B and C, respectively. Determine the resultant moment produced by these forces according to point o. F, 1 2 m B/ 4 m 5 m F, - 50i + 40j + 20k [N] %3D F, = 40j [N] F = 70i + 30j - 20k [N] 3.Consider the frame below with F = 550 N. 0.3 m F 0.3 m 0 100 N 0.4 m -200 N Determine the magnitude of the resultant moment about point O. Provide your answer in Nm to 4 decimal places. Magnitude of the resultant moment about point 0 [Nm] =In Figure, find the magnitude of Qopa if you know that the resultant of the three forces is a vertical force, and it is equal to 620N downward. A F=500N sol/ p=357.8N Q=240N To the left
- Q1) At point A, the four forces F's, l'c, F'p and l'e act, the lines of action for these forces are given by the straight lines AB, AC, AD and AE, as shown in Figure 1. Coordinate the points arc: 3 3 2 4 12 cm em Figure 1 The magnitudes of the forces are: F7 KN, F 3 KN, 9 KN and F 13 KN. Represent this force l acting on the point A as a Cartesian vector and determine its direction. ABCO wQI/ Find the magnitude of the resultant (R) of the Va 21 units two vectors V1 and V2, using triangle law method only. V = 27 units 301- In space ,the point can be specified by position vector r wnich is given by: A:r-ix+ jy c r=ix+ jy + kz B:r=ix+ D:r=ix
- Q) A simplified model as shown in figure below of a planar robotic arm. You may assume that each segment has length 1.5 m, and the applied force is 250 N. 01 = 35 degree and 02 = 03 = 20 degree. Calculate the moment that the force, F, exerts * .about the point A F В C B.F1 = 5 kN F2 = 13 kN 0- 45° B- 30° F3 = 4 kN A 2 m 2. 7 m F4 = 22 kN E l a= 30° F5 = 4 kN sting on the rod about point B? kN.m 2] What is the resultant moment of the five forces acting on the rod about point E? 5 mQI: The 100 tb 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 A. 100b 50 2" 120 -Ib 206 3" 40b