B)This plate (with mass, m=500kg) issupported by 3 vertical perpendicularcables attached at the given brown points.(See the 3-dim. figure). Calculate the 310tension forces:F1=.F2=.F;=to 9)151612 13 146 7 8 9 10 111 2 3 4 52.1

Answered: This plate (with mass, m=500kg) is…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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B As indicated in the diagram above, a sign weighing 2210 N is suspended from a wall with a cable that is attached to the wall at a point 3.96 m (side A) above a horizontal beam that causes the sign to be a distance of 4.3 m from the wall (side B). What is the tension in the cable?
Two weights, A and C, are fixed to a bar, B. Their masses are: A = 60 kg, B = 230 kg,C = 45 kg. B is, in turn, connected to a fixed vertical post by a hinge and a support cableD. The geometry of the system is shown at right. Treat weights A and C as point masses a)What is the tension in support cable D? Be sure to include a detailed freebody diagram to accompany your analysis.b) What is the magnitude of the force provided by the hinge?c) What is the moment of inertia of the A + B + C as a rigid system, for rotationabout the hinge? For analysis, break the beam into a short piece to the left of thehinge, and a separate longer piece to the right of the hinge. If the support cable D on should break,d) what is the angular acceleration of the beam and weights at the moment the cable breaks?e) what is the magnitude of the linear acceleration experienced by each of the weights, A and C, at moment the cable breaks?
Problem # 1 A 1ok For the pinned frame in the figure, calculate the pin forces acting at point B, on member BD (magnitude and direction). B dol 4'
Q/1: A 10 m long vertical mast has a ball-and socket joint at A, and it is supported by two (2) cables, BD and BC as shown in Figure 1. A force 4 kN is applied at G. Draw the free body diagram (FBD) for the rigid body and determine: (a) The tensions in cables BD and BC (b) The reactions at the ball-and-socket joint at A (c) The projection of T, along the line BE (d) The angle between cable BD and line BE (e) The moment of T, along line CF T2 4 kN 5 m B 5 m T₁ 4m-F 74 m 12m x
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Problem 4b: If the plate below weighs 500 N, find the tensions in the three cables. 1.5 m 1.6 m 2.5 m k.75 m*-1m- X
In the fig. shown, compute the ff: (11-13) the tension in cable BD 7.5 rt To = (14-15) the components of the support 10 rt At C. Ch Cv = 5 rt 1000 lb 12.5 ft S00 I In the fig. shown, compute the ff: (16-18) the resultant using cosine law (force polygon) 60 R = 35 (19-20) the angle of the R measured CW from the x- axis. 500 lb

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This plate (with mass, m=500kg) is supported by 3 vertical perpendicular cables attached at the given brown points. (See the 3-dim. figure). Calculate the 3 14 tension forces: F;=. 3