1] What is the resultant moment of the five forces acting on the rod about point A?
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: The moment of the force F 960-lb about the point O in Cartesian vector form is 1 ft B 4 ft 2 ft 4 ft
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Q: For the force system shown, find the resultant force and its point of application with respect to…
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Q: 1. Determine the moment of force F about point 0, about point A and about line OB
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Q: The direction of the resultant moment of the two couples act on the beam shown below is -F 200 lb…
A: It is required to determine direction of moment
Q: A regular tetrahedron has six edges of length a . A force P is directed as shown along edge BC .…
A: Forces acting on the tetradedron are shown in the diagram OAx=a2OAt=OAx tan 30°=a2 tan…
Q: 8 if M =500 N.m. what is the resultant moment at point O as cartesian .vector 4m 600 N.m 450 N 600 N…
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Q: What is the resultant moment of the five forces acting on the rod about point B?
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Q: Determine the magnitude and sense of the moment of the 800-N about point A.
A: Given data: The magnitude of the force, F = 800 N. Draw a free-body diagram of the given system as…
Q: if M =500 N.m. what is the resultant moment at point O as cartesian vector.
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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: Determine the magnitude and direction sense of the resultant moment of the force about point O *
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Q: Knowing the tension in cable AC is 1810 N, 360 mm find moment of this force about each of the…
A: Moment about x-axis, Mx = -978.93 N-m. Moment about y-axis, My = -412.99 N-m. Moment about z-axis,…
Q: Q2 I Determine the 30KN 5m Resultant of the following forces 120 3m and moment about 1o kN 2m point…
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Q: moment of F about point O. Determine the points on the x- and y-axes about which the moment of F is…
A: Given: TO determine: Moment of F about point O Points on x axis and y axis where Moment is zero
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: 1] What is the resultant moment of the five forces acting on the rod about point B?
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Q: 2.2 2 Determine the magnitude and sense of the moment of the 800-N force about point A.
A: Given data Find magnitude of moment of 800 N force about AMA=?
Q: Determine the magnitude and direction sense of the resultant moment of the force about point O
A: Given -
Q: - A 5 N vertical force is applied to the knob of the window-opener mechanism when the crank BC is…
A: Given data Force 5 N is acting vertically downwards in the below mechanism
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: 5. Determine the moment of the force P whose rectangular components are P. che moment about a line…
A: The moment of force P about the given point say B(3,-1,0) is calculated by taking cross product of…
Q: The moment of the given forces about point "A" is 4.5 KN/m 5.0 m 3.0 m A
A: It is required to determine moment about point A
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: Using the vector approach, the moment of F about a) the z -axis b) axis AC
A: (a) Moment of F about z-axis Let O be the origin. Find the position vector along OB. rOB→=3 i^+2…
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: Determine the moment of Q about point C. The magnitude of Q is 25 lb. A 8 ft B 3 ft 4 ft
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Q: The direction of the resultant moment of the two couples act on the beam shown below is 200 lb 130°…
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Q: A 6 m Fc = 420 N FB = 780 N 2 m 2.5 m 3 m B. Determine the moment produced by force Fc = 420 N about…
A: Here, Position vectors of points A and C are as below: A → = 0 i + 0 j + 6 kC → = 2 i - 3 j + 0 k…
Q: What is the resultant moment of the five forces acting on the rod about poiat A?
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Q: Determine the resultant moment that is exerted at point O 100 N 2 m 5 m
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Q: Q 2) For the figure shown, what is the moment about A of the force exerted by the cable BC. Knowing…
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Q: Moment about point C due to force W =
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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: What is the resultant moment of the five forces acting on the rod about point D?
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Q: The moment of the force F=480-lb about the point O in Cartesian vector form is. 1 ft 2 ft
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Q: Determine the magnitude and direction of the moment of the resultant about O in kN-m. *
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Q: A crane is oriented so that the end of the 25-m boom AO lies in the yz plane. At the instant shown,…
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Q: (b) The magnitude of the horizontal force applied at A which creates the same moment about 7m 55 B
A: Given data: L=7 m Need to determine the magnitude of the horizontal force.
Q: 6. A force P of magnitude 330 lb acts on the frame shown at point E. (a) Determine the rectangular…
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Q: 6) Determine the moment of the force about point O. 500 N
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Q: 2- Determine the moment produced by three forces about point O. 250 N 0.15 m 0.15 m 30° 301 320 N…
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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: ABCD is rectangle, in which AB = CD = 100 mm and BC = DA = 80 mm. Forces of 100 N each act along AB…
A: Given data :AB=CD=100 mmBC=DA=80 mmFAB=FCD=100 NFBC=FDA=50 N
Q: 2. Determine the moment of the four forces acting on the rod as in the fig. about point 'o' NOF N 09…
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Q: 2/112 Determine the moments of force F about point O and about point A. 1. b. C
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Q: 3. Find the resultant moment of the forces acting as shown about point A. 3 ft 5 ft
A: To determine the moment about Point A.
Q: A crane is oriented so that the end of the 25-m boom AO lies in the yz plane. At the instant shown,…
A: First of all, make a FBD of the diagram as shown below,
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- An L-shaped bracket is supported by a frictionless pin at A and a cable between points B and D. If pin A is the origin, point C is at (-7, 0); and pin B is at (-7, -10). The cable is attached between point B and an anchor at point D, at (-2, -14). Units are in feet. Force F acts at point C at an angle of 60o from the positive x-axis. Determine the magnitude of the moment that the force F produces about point A. Determine the tension required to hold the bracket in position.4.71 a)The magnitude of the moment induce by the load about the Line-EF is _____ kN*mm. b) The direction of the moment induce by the load about the Line-EF is _____ kN*mm. options: 1 +x 2 -x 3 +y 4 -y 5 +z 6 -z c)The magnitude of the moment induce by the load about the Line-CD is _____ kN*mm. d) The direction of the moment induce by the load about the Line-CD is _____ kN*mm. options: 1 +x 2 -x 3 +y 4 -y 5 +z 6 -zPROBLEM 4: The boom OC is subjected to tension forces at A and C. It is known that the tension in A is 26 kN and at C is 12 kN. Unit vector CE. (ANSWER: -0.38i-0.87j+0.32k) Tension at A. (ANSWER: 13.20i-15.8j+15.8k kN VECTOR COMPONENT FORM) Moment about O due to the given forces. (ANSWER: 78.71i+0j+3.2k kN VECTOR COMPONENT FORM)
- In the given figure below, a tube was supported at A and E by with a ball and socket and a wire at D connected to F. Determine the following given the Force F is equal to 656.46 N. X_b : 218.078 mm X_c : 451.531 mm Y_a : 215.719 mm Z_e : 163.433 mm Z_f : 463.933 mm 1. Determine the x, y and z-component of Vector DF 2. Determine the moment experienced by the system assuming that there is no wire support 3. Determine the x, y and z-component of the moment experienced by the system assuming that there is no wire support 4. Determine the Tension experienced by wire DF 5. Determine the x, y and z-component of the Tension experienced by wire DF.A member is loaded with force system as shown in figure. Find the Moment about A , B, C, D and E Where F1= 70 N, F2 =55 N, F3 =10 N, F4 =20 N, F5 =45 N, AB =110 m, Point C is in the mid of AE, CD = 35m, AE =90 m. the angle ϴ =45 (Enter only the values in the boxes provided) iv) The moment about the point 'D' (unit in Nm) , MD = (v) The moment about the point 'E'(unit in Nm) , ME =The force vector F = (ai + bj + ck) kN acts on point A of the system shown in the figure. Bar OB and point B with coordinates B (x, y, 0) m is on the x-y plane. By using the values given to your name in the data table;a) Find the moment at point O in vectorial form,b) Calculate the magnitude of the moment with respect to the rod OB F = {ai + bj + ck} kN A = 60 B = 70 C = 80 Meter L1 = 16 L2 = 6 B (x, y, 0) coordinates (m) x = 16 y = 3
- a = 4 mb = 3.2 mc = 2 mF = {-7i+4j+12k} NSpecified axis: AF Find the following: Find the z-component of the moment of F about the specified axis. Find the x-component of the moment of F about the specified axis. Find the magnitude of the moment of F about the specified axis. Find the y-component of the moment of F about the specified axis.a = 4 ftb = 3 ftc = 2 ftd = 2.5 ftF1 = {-25i+20j+35k} lbF2 = {-12i-28j+40k} lb Find the x-component of the moment of F1 (in lb-ft) about O. Find the y-component of the moment of F1 (in lb-ft) about O. Find the z-component of the moment of F1 (in lb-ft) about O. Find the magnitude of the moment of F1 (in lb-ft) about O. Find the x-component of the moment of F2 (in lb-ft) about O. Find the y-component of the moment of F2 (in lb-ft) about O. Find the z-component of the moment of F2 (in lb-ft) about O. Find the magnitude of the moment of F2 (in lb-ft) about O. Find the x-component of the resultant moment of F1 and F2 (in lb-ft) about O. Find the z-component of the resultant moment of F1 and F2 (in lb-ft) about O. Find the y-component of the resultant moment of F1 and F2 (in lb-ft) about O. Find the magnitude of the resultant moment of F1 and F2 (in lb-ft) about O.P=20i-9j A) Determine the magnitude of the moment of P about the x-axis in Nm. B) Determine the magnitude of the moment of P about the y-axis in Nm. C) Determine the magnitude of the moment of P about the z-axis in Nm. D) Determine the magnitude of the moment of P about the origin (point O) in Nm.
- R is the resultant coplanar-concurrent forces composing of P, T, F, and each Q acting on a body. Find the magnitude of the fourth force Q and its angle with respect to horizontal, if P = 840N directed downward to the left at 20 degrees with the vertical, T = 890N is acting to the right along the horizontal, F = 530N is up to the right at 45 degrees with the horizontal and R = 1300N acting downward to the right 30 degrees with the horizontalR is the resultant coplanar-concurrent forces composing of P, T, F, and each Q acting on a body. Find the magnitude of the fourth force Q and its angle with respect to horizontal, if P = 840N directed downward to the left at 20 degrees with the vertical, T = 890N is acting to the right along the horizontal, F = 530N is up to the right at 45 degrees with the horizontal and R = 1300N acting downward to the right 30 degrees with the horizontal. Show your answers in graphucal and analytical methodFrom a single point, five sets of horizontal wires are radiating , viz , the first due north , the 2nd 75o northwest , the third 75 southwest and the fourth 30 southeast . The tension at these 4 sets of wires is 100 N, 60N, 80 N and 120 N, respectively. Find the direction of the fifth wire, its tension and position. Use Varignon’s theorem to find the moment that the force shown in Fig. exerts about point,B.