You open a restaurant and hope to entice customers by hanging out a sign (Figure 1)....

You open a restaurant and hope to entice customers by hanging out a sign (see the...

You open a restaurant and hope to entice customers by hanging out a sign (see the figure (Figure 1) ). The uniform horizontal beam supporting the sign is 1.60mlong, has a mass of 16.0kg , and is hinged to the wall. The sign itself is uniform with a mass of 26.0kg and over-all length of 1.20m . The two wires supporting the sign are each 34.0cm long, are 95.0cm apart, and are equally spaced from the middle of the sign....

Figure shows a safe (M = 430 kg) hanging by a rope (negligible mass) from a...

Figure shows a safe (M = 430 kg) hanging by a rope (negligible mass) from a boom (a = 1.9 m and b = 2.5 m) that consists of a uniform hinged beam (m = 85 kg) and horizontal cable (negligible mass). a) What is the tension in the cable? In other words, what is the magnitude of the tension force on the beam from the cable? b) Find the magnitude of the net force on the beam from the...

A purple beam is hinged to a wall to hold up a blue sign. The beam...

A purple beam is hinged to a wall to hold up a blue sign. The beam has a mass of mb = 6.1 kg and the sign has a mass of ms = 16.6 kg. The length of the beam is L = 2.89 m. The sign is attached at the very end of the beam, but the horizontal wire holding up the beam is attached 2/3 of the way to the end of the beam. The angle the wire...

A uniform beam, 2.00 m long with a mass of 20.0 kg, is mounted to a...

A uniform beam, 2.00 m long with a mass of 20.0 kg, is mounted to a wall with a hinge. The beam is held out horizontally by a steel cable, 5 mm in diameter, that makes a 30-degree angle with the beam. The beam will hold up a sign that will hang off its end. See the diagram below A.Using a safety factor of 5, what is the maximum tension the steel cable can provide? B.Given the free-body diagram as...

1. a 3.00 kg bucket is released from rest. It is secured by a rope held...

1. a 3.00 kg bucket is released from rest. It is secured by a rope held by a 0.600 m radius, 5.00 kg pulley. Treat the pulley as a solid cylinder for this problem. Find the speed of the pulley after the bucket has fallen 2.00 m. 2. a 22.00 kg sign hangs from the end of a 3.00 m long horizontal beam. What is the tension in the cable? The beam has a mass of 4.00 kg? 3. A...