Forces shown on the diagram please answer all parts A pole is stabilized in a plane using four cables.The tension in each cable is shown in the figure.Determine the combined force vector on thepole due to cables A and D ONLY.Note that 1 unit = 3 ft.First find the Unit vector for each cable andthen the force vector for each one.I anit-3Ox, y)- (0,39)S000 Ib3000 Ih6000 thSO00 IhDPosition vector for Cable A, ra =k ftUnit vector of ra =kk lbForce vector Cable A, FA =Position vector for Cable D, rp =k ftUnit vector of rp =kForce vector Cable D, FD =k lbCombined Force vector (by cables A & D) on pole FPOLE =k lbMagnitude of combined Force on pole FPOLE =Ib

If P(x1,y1) and Q(x2,y2) are two points located in a plane, then the position vector PQ can be…

A pole is stabilized in a plane using four cables. The tension in each cable is shown in the figure. Determine the combined force vector on the pole due to cables A and D ONLY. Note that 1 unit = 3 ft. K, y)- C0,39) First find the Unit vector for each cable and then the force vector for each one. 000 h 6000 b Position vector for Cable A, rA = k ft Unit vector of ra = k lb Force vector Cable A, FA = Position vector for Cable D, rp = k ft Unit vector of rp = Force vector Cable D, FD = k lb Combined Force vector (by cables A & D) on pole FrOLE = k lb Magnitude of combined Force on pole FrOLE = lb

A pole is stabilized in a plane using four cables. The tension in each cable is shown in the figure. Determine the combined force vector on the pole due to cables A and D ONLY. Note that 1 unit = 3 ft. K, y)- C0,39) First find the Unit vector for each cable and then the force vector for each one. 000 h 6000 b Position vector for Cable A, rA = k ft Unit vector of ra = k lb Force vector Cable A, FA = Position vector for Cable D, rp = k ft Unit vector of rp = Force vector Cable D, FD = k lb Combined Force vector (by cables A & D) on pole FrOLE = k lb Magnitude of combined Force on pole FrOLE = lb

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

See similar textbooks

Similar questions

QI/ The rigid pole and cross-arm assembly is supported by the three cables shown. A turnbuckle at D is tightened until it induces a tension T in CD of 1.2 kN. Express T as a vector. Does it make any difference in the result which coordinate system is used? Ans. T = 0.321i + 0.641j – 0.962k kN, 1.5 m /C B 1m 1.5 m T = 1.2 kN 3m E 01.5 m 3 m 2 m m
A member is loaded with the given system of forces as shown in figure. Find the moment about A & B. Where AB = AD = 80 m, F1=30 N F2=10N, F3=36N, F4=36N, 01=40° , 02= 50°, 03=35° & 0 4=70°. F1 F2 A B D F3 F4 The Moment about "A" (in Nm) = The Moment about "B" (in Nm) = The Moment about "C" (in Nm) = The Moment about "D" (in Nm) = %3D
Find the magnitude and direction of the resultant force for the system of forces shown in the figure. Where F1 =30 N, F2 =35N, F3 =25 N, F4 =55N, Fs = 60N & F6 =40N. The angles e, =20°, z =30 , 84 = 30", Og = 50• %3D (Enter only the values in the boxes by referring the units given in bracket) F2 F3 F1 es F6 F4 Fs
НОМE WORK 3 Determine the resultant force at A. for the figure below Hint : 1- Find the position of all points A,B.C (x, y., z) 2. Find Fas und FAC 3. Find Tanl and Iracl 4. Find FAg = F UA and Fac = F UAC 5- Finally find R and a, B.y 3m Fc= 500N FB= 500N 3m 5m 3m B 2m 4m 5m
A member is loaded with the given system of forces as shown in figure. Find the moment about A & B. Where AB = AD = 70 m, F1=80N F2=50N, F3=45N, F4=88N, 01=30°,02= 30°, 03=65° & 04=50°. F1 F2 A В D Өз F3 F4 The Moment about "A" (in Nm) = %3D The Moment about "B" (in Nm) = The Moment about "C" (in Nm) = %3D The Moment about "D" (in Nm)
Q5: The forces F1=6 kN, F2= 5 kN, and F3= 8 kN as shown in the Figure below, all of which act on point A of the bracket, are specified in three different ways. Determine the x and y scalar components of each of the three forces. F= 500 N F = 600 N 3 35 0m 0.2 m- 03 m F = 800 N B -0.4 m
FY Find the two components of the force (200 N) if a= 60 degrees, as :shown in the figure below F= 200 N α= 60 FX (FX= 100 N) AND (FY= 73.2N) O (FX= 173.2 N) AND (FY= 100N) O (FX= 100 N) AND (FY= 173.2N) O
Q7/ Two integral pulleys are subjected to the belt tensions shown in the figure. If the resultant R of these forces passes through the center O, determine the tension force T and the magnitude of R and the counterclockwise angle e it makes with the x-axis? Ans: T = 60N, R = 193.7N, O = 34.7°. 160 N 200 N 30 200 mm 100 mm 30 150 N
Find the tension in the diagonal cable and the magnitude and direction of the force on the strut by the pivot. The weight of the crate is 2500 N. The strut is uniform and 3.0 m and its weight is 6000N. The angles are a=40 and ß=50 degrees. Draw all the forces acting in the system. Use 2 significant figures in your answer. Write units in calculations. B la
Problem 4 From the figure, w1 =13kN/m, w2=10kN/m, F1 =7kN 1. Find the resultant of the forces 2. Find the location of the resultant from point B. 7m 4m 2m
Find the magnitude and direction of the resultant force for the system of forces shown in the figure. Where F, -30 N, F2 =5N, F3 =30 N, F4 30N, Fs = 30N & F6 - 70N. The angles e, =15, e; =35, 04 = 20°, e, = 25• (Enter only the values in the boxes by referring the units given in bracket) F2 F6 Fs (1) The horizontal component EH of the given system is (unit is in N) (2) The vertical component EV of the given system is (unit is in N) = (3) The resultant of the given force system is (unit in N) = (4) The direction of Resultant is (in") =
HOME WORK 3 Determine the resultant force at A. for the figure below Hint : 1- Find the position of all points A,B,C (x, y, z) 2- Find FAR and FAC 3- Find |raR| and Iracl 4- Find FAR = F UAB and FAC = F UAC 5- Finally find R and a, B,Y 3m Fc= 500N FB= 500N 3m 5m 3m B 4m 2m 5m