Plot the magnitude of the resultant R of the three forces as a function of 9 for 0 ≤0s 360°. After you have the plot, determine the value of which makes the magnitude R of the resultant of the three loads (a) a maximum and (b) a minimum. Record the magnitude of the resultant in each case. Use values of = 80° w = 19°, F₁-63 N, F₂-116 N, F3-83 N. Answers: Fy The tolerance is ± 2%. (a) maximum R-A (b) minimum R- i N when 0- i N when - i
Plot the magnitude of the resultant R of the three forces as a function of 9 for 0 ≤0s 360°. After you have the plot, determine the value of which makes the magnitude R of the resultant of the three loads (a) a maximum and (b) a minimum. Record the magnitude of the resultant in each case. Use values of = 80° w = 19°, F₁-63 N, F₂-116 N, F3-83 N. Answers: Fy The tolerance is ± 2%. (a) maximum R-A (b) minimum R- i N when 0- i N when - i
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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![Plot the magnitude of the resultant R of the three forces as a function of for 0≤0s 360°. After you have the plot, determine the value
of 6 which makes the magnitude R of the resultant of the three loads (a) a maximum and (b) a minimum. Record the magnitude of the
resultant in each case. Use values of = 80° w = 19°F₁-63 N, F₂-116 N, F3-83 N.
F₁
N when 8- i
N when 8- i
Answers:
(a) maximum R-₁
(b) minimum R- i
The tolerance is ± 2%.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fab84663d-627c-4346-ac16-44e5c3a9ef87%2F01d8f2ba-2ad7-4225-acdc-01d5731377a4%2F1r0rz16_processed.png&w=3840&q=75)
Transcribed Image Text:Plot the magnitude of the resultant R of the three forces as a function of for 0≤0s 360°. After you have the plot, determine the value
of 6 which makes the magnitude R of the resultant of the three loads (a) a maximum and (b) a minimum. Record the magnitude of the
resultant in each case. Use values of = 80° w = 19°F₁-63 N, F₂-116 N, F3-83 N.
F₁
N when 8- i
N when 8- i
Answers:
(a) maximum R-₁
(b) minimum R- i
The tolerance is ± 2%.
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