Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Transcribed Image Text:Determine the equivalent force-moment (one resultant force and one resultant moment)
system at point A for the following truss. Also, determine the equivalent force system (only
one force) acting on this truss and the point of intersection of its line of action with the x-
axis.
У
4 m
-8 m
8 m
240 N
160 N
300 N
70°
В
F
40°
6 m
A
G
C
E
X
8 m
8 m
-8 m
200 N
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- 1. Determine the resultant of the distributed load 2. Determine the point of application of the resultant force of the distributed load along the x-axis 3. Determine the moment of Force D about the x-axisarrow_forwardThe rigid pipe is subject to the following loads. Neglecting the weight of the pipe, determine the moment at O. SOLVE THE FF Vector component form of 50-lb force (ANSWER: 25.000i +0j -43.30k lb) Magnitude of the resultant force (ANSWER: 78.10 lb) Position vector of the 50-lb force from point O to its point of application on the pipe. (ANSWER: -15i -10j +12k inch) Moment at point O, in vector component form. (ANSWER: 1153.01i -829.52j +250.00k lb-in)arrow_forwardReplace the force system acting on the post by a resultant force and couple moment at point O. 300 lb 30° 150 lb 2 ft Question 5 2 ft 200 lb 2 ftarrow_forward
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- Replace the three forces shown by an equivalent force-couple system at point A. If the forces are replaced by a single resultant force, determine the distance d below point A to its line of action. Answers: R= i M= i 160 N 290 N d = Single resultant force. i www Force-couple system at A. The force is positive if to the right, and the couple is positive if counterclockwise. 300 N 650 mm 650 mm 650 mm N N.m mmarrow_forwardDetermine the moment about point B of each of the three forces acting on the beam using the Scalar Approach / Notation. F₁ = 375 lb 8 ft 6 ft 3 4 F₂ = 500 lb 5 ft- B 0.5 ft 30° F3 = 160 lbarrow_forwardDetermine the moment about point B of each of the three forces acting on the beam using the Scalar Approach / Notation. F₁ = 375 lb 8 ft 6 ft 3 4 F₂ = 500 lb 5 ft- B 0.5 ft 30° F3 = 160 lbarrow_forward
- Handle forces F1 and F2 are applied to the electric drill. Replace this force system by an equivalent resultant force and couple moment acting at point O. Express the results in Cartesian vector from. Determine the resultant force and the moment of the resultant forse about the point O. Express your answer in terms of the unit vectors i, j and k.arrow_forwardThe force F = {-6i + 3j + 18 k} N is applied to the block shown in (Figure 1). Figure X -3 m D B 1.5 m G 3m F 1 of 1 > Part A Determine the moment of the force F about the diagonal AF of the rectangular block. Express your answers in newton-meters to three significant figure. Enter the x, y, and z components of the moment separated by commas. (MAF)z. (MAF)y, (MAF) z = Submit VE ΑΣΦ Provide Feedback Previous Answers Request Answer ↓↑ vec X Incorrect; Try Again; One attempt remaining ? N.m Next >arrow_forwardQ/For the forces shown in the figure below, determine the magnitude and direction of the sum of the moments about point A. F₁ = 375 F₂ = 500 HA 30° F3 = 160arrow_forward
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