College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- A uniform beam of mass M = 10.0 kg and length L = 2.00 m is suspended from a ceiling at an angle of 30° below the horizontal. The beam is attached to the ceiling by a hinge at one end and a light support rope attached to the other end. What is the magnitude of the force by the hinge? 30° L= 2.0 m M= 10.0 kgarrow_forwardThe figure shows a horizontal beam of mass M = 54.5 kg and length L = 6.3 m supported at its left end by a frictionless pin and at the other end by an ideal cable attached to wall h = 6 m above the beam. A mass m = 28.9 kg is suspended from the beam a distance d = 3.7 m from the wall. Find the tension in the cable. h T = m M -L- Narrow_forwardAs shown below, a sign weighing 434 N is hanging (via a wire) from a uniform 480 N beam of length L. Additionally, the beam is attached to a cable that makes an angle ? (? = 30°) with the beam. WebAssign Plot Determine the tension in the cable and the magnitude & direction of the force the hinge (the orange circle) exerts on the beam.Cable tension = 653.6 N Incorrect: Your answer is incorrect. Hinge force = 815.597 N Direction of hinge force = 46.05 relative to the vertical in quadrant 1 (incorrect)arrow_forward
- A person is standing on a section of uniform scaffolding as shown in the figure. The section of scaffolding is L = 1.50 m in length, has a mg = 22.0 kg mass and is supported by three ropes as shown. Determine the magnitude of the tension in each rope when a person with a weight of Wp = 580 N is a distance d = 0.700 m from the left end. magnitude of T1 magnitude of T2 magnitude of T3 40.0° 0.700 m 1.50 marrow_forwardA ladder is leaning against a vertical wall, and both ends of the ladder are at the point of slipping. The coefficient of friction between the ladder and the horizontal surface is μ₁ = 0.215 and the coefficient of friction between the ladder and the wall is ₁ = 0.103. Determine the maximum angle a with the vertical that the ladder can make without falling on the ground. α = H₂ a H₂ L Xarrow_forwardA 10 m long uniform board weighing 400 N is supported by ropes at each end. A worker weighing 900 N stands 3.0 m from the rope on the left. Determine the tension in the two ropes for static equilibrium.arrow_forward
- The diagram shows a uniform 30 cm strut weighing 5 N supporting a 10 N weight 10 cm from the pivot. Find the tension in the cable attached to the wall. 10 cm 10 N 30°arrow_forward5.00 m 4.00 m F End A of the bar AB rests on a frictionless horizontal surface, and end B is hinged. A The weight of the bar is 200 N. horizontal force F of magnitude 200 N is exerted on end What is the magnitude of the force exerted on the bar by the hinge at point B? 156 N 248 N 261 N 284 N B.arrow_forwardA 7-m long beam of negligible mass is hanged horizontally and is supported at each end by vertical cables. The tension in the left cable is 300 N, and that in the right cable is 400 N. How far is the person sitting from the left cable?arrow_forward
- Mp= L. d ms A horizontal L=1.3 m long mb=15 kg uniform bar is hinged on the left end and pulled at the right end by a cable. The cable makes 29° angle with horizontal. A 18 kg store sign is suspended below the bar at d=0.18 m from the right end. Find the magnitude of tension.arrow_forwardA scaffold of mass 67 kg and length 5.0 m is supported in a horizontal position by a vertical cable at each end. A window washer of mass 67 kg stands at a point 1.7 m from one end. What is the tension in (a) the nearer (relative to the person) cable and (b) the farther (relative to the person) cable?arrow_forwardIn the figure, a uniform beam of weight 420 N and length 3.4 m is suspended horizontally. On the left it is hinged to a wall; on the right it is supported by a cable bolted to the wall at distance D above the beam. The least tension that will snap the cable is 1100 N. What value of D corresponds to that tension? Cable Beamarrow_forward
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