Needs Complete typed solution with 100 % accuracy. Figure5.0 mcable4.0 m<1 of 1 >▼ Part CFind the vertical component of the force the hinge exerts on the beam.Express your answer inewtons.—| ΑΣΦF, =Submit880Provide FeedbackPrevious Answers Request Answer?X Incorrect; Try Again; One attempt remainingNA 11-m uniform beam is hinged to a vertical wall and heldhorizontally by a 5.0-m cable attached to the wall 4.0 mabove the hinge, as shown in (Figure 1). The metal ofthis cable has a test strength of 1.10 kN, which meansthat it will break if the tension in it exceeds that amount.

Answered: Image /qna-images/answer/c9fb191f-e7ce-4bfa-8d76-e51ed9eccddb.jpg

Figure 5.0 m cable 4.0 m <1 of 1 Find the vertical component of the force the hinge exerts on the beam. Express your answer in newtons. 15. ΑΣΦΑ F=-880 Submit Previous Answers Request Answer ? X Incorrect; Try Again; One attempt remaining Provide Feedback N A 11-m uniform beam is hinged to a vertical wall and held horizontally by a 5.0-m cable attached to the wall 4.0 m above the hinge, as shown in (Figure 1). The metal of this cable has a test strength of 1.10 kN, which means that it will break if the tension in it exceeds that amount.

Figure 5.0 m cable 4.0 m <1 of 1 Find the vertical component of the force the hinge exerts on the beam. Express your answer in newtons. 15. ΑΣΦΑ F=-880 Submit Previous Answers Request Answer ? X Incorrect; Try Again; One attempt remaining Provide Feedback N A 11-m uniform beam is hinged to a vertical wall and held horizontally by a 5.0-m cable attached to the wall 4.0 m above the hinge, as shown in (Figure 1). The metal of this cable has a test strength of 1.10 kN, which means that it will break if the tension in it exceeds that amount.

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter12: Static Equilibrium And Elasticity

Section: Chapter Questions

Problem 12.8CYU: Check Your Understanding A 400.0-N sign hangs from the end of a uniform strut. The strut is 4.0 m...

See similar textbooks

Similar questions

In order to get his car out of the mud, a man ties one end of a rope to the front bumper and the other end to a tee 15 m away as shown below. He then pulls on the center of the rope with a force of 400 N, which causes its center to be displaced 0.30 m, as shown. What is the force of the rope on the car?
A uniform horizontal strut weighs 400.0 N. One end of the strut is attached to a hinged support the wall and the other end of the strut is attached to a sign that weighs 200.0 N The strut is also supported by a cable attached between the end of the strut and the wall. Assuming that the entire weight of the sign is attached at the very end of the s find the tension in the cable and the force at the hinge of the strut.
When the structure shown below is supported at point P, it is in equilibrium. Find the magnitude .of force F and the force applied at P. the weight of the structure is negligible.
In Example 14.3, we found that one of the steel cables supporting an airplane at the Udvar-Hazy Center was under a tension of 9.30 103 N. Assume the cable has a diameter of 2.30 era and an initial length of 8.00 m before the plane is suspended on the cable. How much longer is the cable when the plane is suspended on it?
What Is Static Equilibrium? Problems 13 are grouped. 1. C A ball is attached to a strong, lightweight rod (Fig. P14.1). The rod is supported by a horizontal pin near the top. The ball is at rest. Is the ball in static equilibrium? If not, why not? If so, which type of equilibrium is itstable, unstable, or neutral? Hint: What would happen if you displaced the ball slightly? FIGURE P14.1
Check Your Understanding A 400.0-N sign hangs from the end of a uniform strut. The strut is 4.0 m long and weighs 600.0 N. The strut is supported by a hinge at the wall and by a cable whose other end is tied to the wall at a point 3.0 m above the left end of the strut. Find the tension in the supporting cable and the force of the hinge on the strut.
A suspender rod of a suspension bridge is 25.0 m long. If the rod is made of steel, what must its diameter be so that it does not stretch more than 1.0 cm when a 2.5104kg tuck passes by it? Assume that the rod supports all of the weight of the truck.
A uniform rod of length 2R and mass M is attached to a small collar C and rests on a cylindrical surface of radius R ,as shown bolow. If the collar can slide without friction along the vertical guide, find the angle for which the rod is in static equilibrium.
The keystone of an arch is the stone at the top (Fig. P14.9). It is supported by forces from its two neighbors, blocks A and B. Each block has mass m and approximate length L. What can you conclude about the force exerted by each block, FA and FB, for the keystone to remain in static equilibrium? That is, show that the equilibrium conditions are satisfied by the components of the forces FAx, FAy, FBx, and FBy. Assume the arch is symmetric. FIGURE P14.9
A wooden door 2.1 m high and 0.90 m wide is hung by two hinges 1.8 m apart. The lower hinge is 15 cm above the bottom of the door. The center of mass of the door is at its geometric center, and the weight of the door is 260 N, which is supported equally by both hinges. Find the horizontal force exerted by each hinge on the door.
A painter climbs a ladder. Is the ladder more likely to slip when the painter Is near the bottom or near the top?
Check Your Understanding Find the compressive stress and strain at the base of Nelson’s column.