Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Replace the loading by an equivalent resultant force. (Figure 1) Suppose that w1 = 5 lb/ft, w2 = 2 lb/ft, and F = 80 lb.
a) Determine the magnitude of the resultant force. Express your answer in pounds to three significant figures.
b) Specify the location of the force on the beam, measured from A. Express your answer in feet to three significant figures.
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- YouTube Maps Q1) For the force system shown in figure, 1) Find the angle (4) so that the resultant of these forces will be vertical. 45 kN 55 kN A 3. 1m 3 m O 49.115 Deg. O 12.102 Deg. O 42.833 Deg. Windows b O 60.600 Deg.arrow_forwardSPECIFIC INSTRUCTION: Solve each problem NEATLY and SYSTEMATICALLY. Show your COMPLETE solutions and BOX your final answer. Express your answers in 2 decimal places. Given the figure below, determine the moment of the given forces at к. F = 500 N 0.125 m 0.3 m 60 0.25 m F= 600 N Karrow_forwardCan’t recall how to go about these.arrow_forward
- solve all the partsarrow_forwardReplace the distributed loading shown in (Eigure 1) by an equivalent resultant force. Suppose that w=3.5 kN/m and ₂-2.5 kN/m Figure 1 of 1 > Part A Determine the magnitude of the resultant force Express your answer to three significant figures and include the appropriate units. FR = Submit Part B Value Request Answer Units Determine the direction angle of the resultant force measured counterclockwise from the negative z direction Express your answer in degrees to three significant figures.arrow_forwardQ1) For the force system shown in figure, 1) Find the angle (4) so that the resultant of these forces will be vertical. 55 kN BA 45 kN A C 1m 3 m 3 marrow_forward
- 2.) Calculate the resultant force. (10PTS.) A = 2000lb D = 500lb 45° B = 1000lb 30° C = 2000lbarrow_forwardDetermine the magnitude and direction of the resultant for system of forces shown in the figure. Take F1 = 106.8 N, F2 = 83.3 N, F3 = 29.8 N, F4 = 75.8 N, F5 = 32.5 N, α = 29.4°, β = 47.5°, and γ = 50.8°. a) Sum of all horizontal force components, ΣH (N) = b) Sum of all Vertical force components, ΣV (N) = c) The resultant force, R (N) = d) The direction of the resultant force, θ (Degree) =arrow_forwardDetermine the magnitude (lb) of the horizontal component of force at point C if P = 130.9 lb, x = 14.3 in, y = 7.4 in, and z = 6.8 in. Round off only on the final answer expressed in 3 decimal places. Instead of units, indicate the direction: use L if to the left or R if to the right.arrow_forward
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