A. On the diagram on the right, draw all the forces acting on the beam. For the force the hinge exerts, draw its x and y components separately. B. In order to find the tension in the string, which point should we select to write rmet = 0? a. Top left end of the beam. b. Point where wire is connected to the beam. c. Middle of the beam (where mg acts). d. Bottom right end of the beam. C. Use the point you identified in B to calculate the tension in the string.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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A. On the diagram on the right, draw all the forces acting on the beam.
For the force the hinge exerts, draw its x and y components separately.
B. In order to find the tension in the string, which point should we
select to write tret = 0?
a. Top left end of the beam.
b. Point where wire is connected to the beam.
c. Middle of the beam (where mg acts).
d. Bottom right end of the beam.
C. Use the point you identified in B|to calculate the tension in the
string.
D. Use the free body diagram above to write down Newton's 2nd law for both x and y directions.
E. Use the equations you wrote in D to find the horizontal and vertical components of the force that the hinge exerts on
the beam.
F. Suppose the maximum tension that the wire can withstand is 1500 N. What is the maximum load that the hinge can
support before the wire breaks?
Transcribed Image Text:A. On the diagram on the right, draw all the forces acting on the beam. For the force the hinge exerts, draw its x and y components separately. B. In order to find the tension in the string, which point should we select to write tret = 0? a. Top left end of the beam. b. Point where wire is connected to the beam. c. Middle of the beam (where mg acts). d. Bottom right end of the beam. C. Use the point you identified in B|to calculate the tension in the string. D. Use the free body diagram above to write down Newton's 2nd law for both x and y directions. E. Use the equations you wrote in D to find the horizontal and vertical components of the force that the hinge exerts on the beam. F. Suppose the maximum tension that the wire can withstand is 1500 N. What is the maximum load that the hinge can support before the wire breaks?
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