Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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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_forwardAn 10-lb force P is applied to a shift lever. Determine the moment of P about B when a is equal to 30°. A 22 in. B k-8 in- -250.1 Ib-in -230.5 lb-in -210.3 lb-in O -186.6 Ib-inarrow_forward
- The caster unit is subjected to the pair of 75-lb forces shown. Determine the moment associated with these forces. The moment is negative if clockwise. positive if counterclockwise, 1.4" 75 lb lb-in. 75 lb Answer: M = iarrow_forwardExpress and identify the resultant of the two forces and one couple shown acting on the shaft angled in the x-z plane. Assume F = 350 lb, M = 310 lb-ft, a = 8 in., b = 22 in., 0 = 17% 10 F. a -M k) lb-in. i Answer: M = (i b F Ө i+ i j+arrow_forwardNote: handwritten solution are strictly prohibited ?.arrow_forward
- Three forces act at point O. If it is known that the y-component of the resultant R is -3.9 kN and that the z-component is 3.0 kN, determine F3, 0, and R. Answers: F2 = 5.0 kN F₁ = 4.3 KN F3= KN 0 = R = KNarrow_forwardExpress the 40 lb force in the rope from point A to point C in cartesian format. Point C is in the x-y plane and at an angle of 20 degrees from the y axis as shown. 4 ft 20 lb A B 3 ft X 40 lb Z 2 ft 1.5 ft 4.87i+27.6j - 28.5k lb -4.87i+27.6j + 28.5k lb -4.87i+27.6j - 28.5k lb 4.87i+22.8j - 32.5k lb 2 ft 20 y Carrow_forwardAlso, determine the y-component and z-component of the moment about point O. Express your answer in units of ft-lb.arrow_forward
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