Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Transcribed Image Text:1 Determine the magnitude, direction and distance of the Resultant for the given force
system as shown in Fig-01, about point 'A'.
126KN
180KN
26°
36°
D
-3m
1.5m
A
65°
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- show complete solution (computation and final answer must be in 4 decimal places)arrow_forwardSolve for the x and Y components of the force F. Solve for the Resultant Force and its distance from point A. Solve for the Resultant Force and its distance from point A. 200lb 300lb 400lb 300lb 200lb 30 30 B 10 10' 10' 2000lbarrow_forwardUse the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to solve the following problems. Determine the magnitude of the resultant R and the angle e between the x-axis and the line of action of the resultant for the following: 600 N 30° 500 N 60° 30° 350 Narrow_forward
- 3.) Calculate the magnitude and direction of the resultant force in this system, and it's location with respect to point A. 450 lbs 900 lbs 130 lbs/ft 43° A 5' 7' 4' 7'arrow_forwardUse the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to solve the following problems. Determine the magnitude of the resultant R and the angle e between the x-axis and the line of action of the resultant for the following: 250 lb 350 lb 500 lbarrow_forwardThe Question Consider the following force system 250 N where X = pag 30° YN 800 N and Y = 600 N. XN Calculate the magnitude and direction of the resultant force. Enter your answer for the magnitude in N and the direction in degrees with respect to the positive x-axis, both correct to three significant figures in the appropriate boxes below. Magnitude: R= N Direction: 0= degreesarrow_forward
- Given the following system, express each force as a Cartesian force vector. F₂ = 175 lb F₁ = 250 lb eto.ed3³6 40⁰ 45° 120⁰ 60° F3 = 120 lbarrow_forwardDetermine: Magnitude Direction Position Of the resultant of the system of forces acting a plate. As shown below.arrow_forwardIf a = 2m, b = 3.6m, c = 6.3m, FAB = 870N, determine the projected component of the force acting along cable AC (in Vector Form) and the angle between them. FAB 20. x- component of rAB in inch (express in 4 significant figures). 21. y-component of rAB in feet (express in 4 significant figures). 22. z- component of rAB in centimeters (express in 4 significant figures).arrow_forward
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