The moment of the weight W about the origin O is by definition OD x W.
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A: Position vectors of A= p+q Position vectors of B= p-q Position vectors of C= p
Q: The moment F= T20-lb about of the force the point O in Cartesian vector form is. F= 120 lb 1 ft 4 ft…
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Q: The moment of the force about point O *: is : is 100 N 2 m 5 m
A: If a force F is inclined to the horizontal with an angle of inclination θ the horizontal component…
Q: The moment of the force F=720-lb about the point O in Cartesian vector form is. F 1 ft 4 ft 2ft 4…
A: Solution: Moment of Force F about O and its cartesian form is obtained below.
Q: The moment of the force F=960-lb about the point O in Cartesian vector form is.
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Q: The moment of the force F=960-lb about .the point O in Cartesian vector form is F 1 ft 4 ft 2 ft 4…
A: Force , F=960 lb
Q: In the figure shown below, the moment of a certain force F is 240 ft-lb clockwise about O and 130…
A: Note:As per our guidelines we are supposed to answer only one question. Kindly repost other…
Q: The moment of the force F-120-lb about the point O in Cartesian vector form is.
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Q: The moment of the force F=120 lb about the point O in Cartesian vector form is.
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Q: The 25-m crane boom AO lies in the yz plane. Determine the maximum permissible tension in cable AB…
A: Consider the free body diagram shown below for the crane. Here, T is the tension in the cable.
Q: Figure Q2(b) shows two masses m and m: hanged together at the link AB. If the mass m, = 20 kg, and…
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Q: The moment of the force F480-lb about the point O in Cartesian vector form is. 1 ft 4 ft 2ft 4 ft
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Q: When mating surfaces of contacting bodies are rough, the force of contact: A force in the x…
A: identify the forces on the contact rough surface.
Q: A force P in the xy-plane acts on the triangular plate. The moments of P about points O, A, and B…
A: Take the moment about point O and substitute the required values.
Q: The moment of the force F=960-lb about the point O in Cartesian vector formn is. 1 ft> 4 ft 2 ft 4…
A: The position vector for B is B→=i+4j+2k The position vector for C is C→=5i+0j+0k The vector along BC…
Q: Q.1) Knowing that the tension in cable BA is 570 N, determine the moment about O. Neglect the…
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Q: The moment of the force F=720-lb about the point O in Cartesian vector form is. 1 ft 4 ft' 2ft 4 ft
A: The position vector is rb=i+4j+2k For c is rc=5i And the position vector for BC is…
Q: The moment exerted about point E by the weight is 900 N.m. The moment which the weight exerted about…
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Q: (b) Figure Q2(b) shows two masses m and m: hanged together at the link AB. If the mass m = 20 kg,…
A: Given, m1 = 20 kg Moment of weights about B = MB = 170 Nm Let us say weights of masses m1 and m2…
Q: A 0,5 0.4 B
A: Given: The moment about point O is Mo=-80 N∙m. The moment about point A is MA=200 N∙m. The moment…
Q: Given the vectors P 3i - j + k, Q = 4i + Qyj - 2k, and S 2i - 2j + 2k, determine the value of Qy for…
A: Given Data: The vector P = 3i-j+k. The vector Q = 4i+Qyj-2k. The vector S= 2i-2j+2k. For the 3…
Q: The moment of the given force about point "A" is 120 N 3 4 m 1 A
A: It is required to determine moment of force about A
Q: The moment of the force F=240-lb about the point O in Cartesian vector form is:
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Q: The moment of the force F=360-lb about the point O in Cartesian vector form is.
A: Solution:
Q: The moment of the force F=480-lb about the point O in Cartesian vector form is. 1 ft> 4 ft 2ft 4 ft…
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Q: The moment of the force F=480-lb about the point O in Cartesian vector form is.
A: we know thatO=0,0,0ftB=1,4,2ftC=5,0,0ftand position vector of B with respect to O isroB→=1-0I^…
Q: Urgent. Determine the components (Mx, My, Mz) of the moment that the force F will create at point O…
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Q: The moment of the force about point O *: is
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Q: The Cartesian vector form of the moment produced by force Fy about point O is equal to. -2 ft- 3ft F…
A: As given Force vector (F→1) = {-20i + 10j + 30k}lb From the given diagram, we can get the position…
Q: The moment of the force F=180-lb about the point O in Cartesian vector form is.
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Q: 5. In the rocker arm shown, the moment of force F about O balances that of force P about O.…
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Q: Moment of a force vector F = î+j+k passing through a point (1,1,1) about the origin is
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Q: For no. 5, consider the weights of two children sitting at ends A and B of a seesaw equal to 40 kg…
A: When a hinged body is subjected to multiple forces then for the equilibrium of the body, net moment…
Q: 6 ft 6ft Determine the moment of the force system of Figure below with respect to point A and B
A: Consider below FBD for the calculation: Here, UDL between A and B is represented with single…
Q: The moment of the force F=120-lb about the point O in Cartesian vector form is.
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Q: The moment of the force F-480-lb about the point O in Cartesian vector form is. 1 ft> B 4 ft 2 ft 4…
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Q: The moment of the force F=180-lb about the point O in Cartesian vector form is. B 4 ft 2 ft 4 ft
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Q: > The moment of the force (1000N) about pin A is..... > The moment of the force (1000N) about pin B…
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Q: The moment of the weight W about the origin O is by definition OD × W. W Note sin theta = sin® %3D…
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Q: Two forces F1 and F2 in space have the same magnitude F . Prove that the moment of F1 about the line…
A: Let the two forces is drawing as shown below,
Q: The moment of the force F=480-lb about the point O in Cartesian vector form is. I ft 4 ft 2 ft 4 ft
A: The position vectors are determined as, O→=0i^+0j^+0k^B→=1i^+4j^+2k^C→=5i^+0j^+0k^ The distance…
Q: Give the correct answer and clear solution of the problem 1.A plate is subjected to a couple Fd ,…
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Q: Consider a positive sign convention for counterclockwise rotation and a negative sign convention for…
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Q: 37° 3 501bs 2061bs Minimal: Find the 'x' and 'y' component forces of Vector A. " 3.
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Q: The moment of the force F=1440-lb about the point O in Cartesian vector form is. 1 ft 4 ft' 2 ft 4…
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Q: The moment of the 90 N force about point O for the condition theta = 15 degrees is equal to.
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Q: A body is in equilibrium if the 5 points resultant of all the external forces and moments on the…
A: A body is said to be in equilibrium if the vector sum of the forces and moments is zero.
Q: The moment of the force F=1440-lb about the point O in Cartesian vector form is.
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- For the position vectors P and Q shown, determine the orthogonal component of P Ă— Q in the direction of OA.It can be show that a plane area may he represented by a vector A=A, where A is the area and represents a unit vector normal to the piano: of the area. Show that the area vector of the parallelogram formed by the vectors a and b shown in the figure is A=ab.The length of the position vector r is 240 mm. Determine the rectangular components of (a) r; and (b) the unit vector directed from O toward A.
- Determine the value of the scalar a if the following three vectors are to lie in the same plane: A=2i-j+2km,B=6i+3j+akm, and C=16i+46j+7km.The equation of the catenary shown is y = 100 cosh (x/100) where x and y are measured in feet (the catenary is the shape of a cable suspended between two points). Locate the y-coordinate 0f the centroid of the catenary by numerical integration using x=25ft.Given that P=120lb and Q=130lb, find the rectangular representation of P+Q.
- Given r=4i6j+2km (position vector) F=20i+40j30kN (force vector) =0.8j+0.6k (dimensionless unit vector) compute (a) rF; and (b) rF.Q Avecar A f Length 10 units.ma Kes an angle of 30 with avector Bof benath 6unuts. Find the wagnitude of the Vector difference A-B and the angle itmakes with vector A- O by the para llelagram method. O by the triangle methad. © bay the rectamqular vesalutien.6 m! 1.0 m TS 2 m 3 m 2m 2 m The magnitude of one of the forces is T2 = 80 kN. Find the rectangular representation of T2. * The magnitude of one of the forces is T2 = 80KN. Find the rec tan gular representation of T2. T2 = (-22.86 i + 34.29 / + 68.57 k) N T2 = (-22.86 i – 34.29 j + 68.57 k) N T2 = (22.86 i - 34.29 j + 68.57 k) N T2 = (22.86 i- 34.29 /-68.57 k) N
- QI/ 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 30In picking up a load from position B, a cable tension T of magnitude 24 kN is developed in on the construction crane cable as shown. 18 m A. TY 30 m 5 m 6 m Compute the magnitude of the Position Vector RAB = Rxi + R„j+ Rzk (Answers in m) Answer: Type here to search6 m 1.0 m 2 m 3 m 2 m 2 m The magnitude of one of the forces is T1 = 100 kN. Find the rectangular representation of T1. * The magnitude of one of the forces is T = 100KN. Find the rec tan gular representation of T1. O7 = (-15.62 i + 31.23 j+ 93.70 k) N O7, = (-15.62 i-31.23 j+93.70 k) N OT = (15.62 i+ 31.23 j+93.70 k) N T= (15.62 i + 31.23j-93.70 k) N