A uniform 6.59 m long horizontal beam that weighs 269 N is attached to a wall by a pin connection that allows the beam to rotate. Its far end is supported by a cable that makes an angle of 52° with the horizontal, and a 586 N person is standing 1.16 m from the pin. R FT 52 -1.16 m 269 N 586 N 6.59 m Find the force Fr in the cable by assuming that the origin of our coordinate system is at the rod's center of mass. Answer in units of N.

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A uniform 6.59 m long horizontal beam that
weighs 269 N is attached to a wall by a pin
connection that allows the beam to rotate. Its
far end is supported by a cable that makes an
angle of 52° with the horizontal, and a 586 N
person is standing 1.16 m from the pin.
R.
FT
52
1.16 m
269 N
586 N
6.59 m
Find the force Fr in the cable by assuming
that the origin of our coordinate system is at
the rod's center of mass.
Answer in units of N.
Transcribed Image Text:A uniform 6.59 m long horizontal beam that weighs 269 N is attached to a wall by a pin connection that allows the beam to rotate. Its far end is supported by a cable that makes an angle of 52° with the horizontal, and a 586 N person is standing 1.16 m from the pin. R. FT 52 1.16 m 269 N 586 N 6.59 m Find the force Fr in the cable by assuming that the origin of our coordinate system is at the rod's center of mass. Answer in units of N.
Find the magnitude of the force R exerted
on the beam by the wall if the beam is in
equilibrium.
Answer in units of N.
Fine
Transcribed Image Text:Find the magnitude of the force R exerted on the beam by the wall if the beam is in equilibrium. Answer in units of N. Fine
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