2. Another beam (length 5.0 m, mass 28 kg) is attached to a wall by a hinge. The beam is at an angle of 42° to the vertical wall. A rope which can withstand a maximum tension of 1000 N supports the beam 2.0 m from its end and is perpendicular to the beam. At the end of the beam is suspended a hanging mass m. What is the maximum mass (m) that can be suspended from the end of the beam without exceeding the 1000 N capacity of the rope? Tmax= 1000 N таx т 42°
2. Another beam (length 5.0 m, mass 28 kg) is attached to a wall by a hinge. The beam is at an angle of 42° to the vertical wall. A rope which can withstand a maximum tension of 1000 N supports the beam 2.0 m from its end and is perpendicular to the beam. At the end of the beam is suspended a hanging mass m. What is the maximum mass (m) that can be suspended from the end of the beam without exceeding the 1000 N capacity of the rope? Tmax= 1000 N таx т 42°
College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:2. Another beam (length 5.0 m, mass 28 kg) is attached to a wall by a hinge. The beam is at an angle of 42° to
the vertical wall. A rope which can withstand a maximum tension of 1000 N supports the beam 2.0 m from its
end and is perpendicular to the beam. At the end of the beam is suspended a hanging mass m. What is the
maximum mass (m) that can be suspended from the end of the beam without exceeding the 1000 N capacity of
the rope?
Tmax= 1000 N
таx
т
42°
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