11.49 • You open a restaurant and hope to entice customers by hanging out a sign (Fig. P11.49). The uniform horizontal beam supporting the sign is 1.50 m long, has a mass of 19.0 kg, and is hinged to the wall. The sign itself is uniform with a mass of 35.0 kg and overall length of 1.20 m. The two wires supporting the sign are each 32.0 cm long, are 95.0 cm apart, and are equally spaced from the middle of the sign. The cable supporting the beam is 2.20 m long. (a) What minimum tension must your cable be able to support without having your sign come crashing down? (b) What minimum vertical force must the hinge be able to support without pulling out of the wall?
11.49 • You open a restaurant and hope to entice customers by hanging out a sign (Fig. P11.49). The uniform horizontal beam supporting the sign is 1.50 m long, has a mass of 19.0 kg, and is hinged to the wall. The sign itself is uniform with a mass of 35.0 kg and overall length of 1.20 m. The two wires supporting the sign are each 32.0 cm long, are 95.0 cm apart, and are equally spaced from the middle of the sign. The cable supporting the beam is 2.20 m long. (a) What minimum tension must your cable be able to support without having your sign come crashing down? (b) What minimum vertical force must the hinge be able to support without pulling out of the wall?
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![11.49 • You open a restaurant and hope to entice customers by
hanging out a sign (Fig. P11.49). The uniform horizontal beam
supporting the sign is 1.50 m long, has a mass of 19.0 kg, and is
hinged to the wall. The sign itself is uniform with a mass of 35.0 kg
and overall length of 1.20 m. The two wires supporting the sign
are each 32.0 cm long, are 95.0 cm apart, and are equally spaced
from the middle of the sign. The cable supporting the beam is
2.20 m long. (a) What minimum tension must your cable be able to
support without having your sign come crashing down? (b) What
minimum vertical force must the hinge be able to support without
pulling out of the wall?
Figure P11.49
Cable
Hinge
GOOD EATS
-1.20 m-](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F51f98073-8dad-4753-9d14-c8a489d93ca6%2F636a2104-ae3d-4934-95ab-8875cfb272f2%2Ff0bxx2_processed.jpeg&w=3840&q=75)
Transcribed Image Text:11.49 • You open a restaurant and hope to entice customers by
hanging out a sign (Fig. P11.49). The uniform horizontal beam
supporting the sign is 1.50 m long, has a mass of 19.0 kg, and is
hinged to the wall. The sign itself is uniform with a mass of 35.0 kg
and overall length of 1.20 m. The two wires supporting the sign
are each 32.0 cm long, are 95.0 cm apart, and are equally spaced
from the middle of the sign. The cable supporting the beam is
2.20 m long. (a) What minimum tension must your cable be able to
support without having your sign come crashing down? (b) What
minimum vertical force must the hinge be able to support without
pulling out of the wall?
Figure P11.49
Cable
Hinge
GOOD EATS
-1.20 m-
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