Determine the tension in the horizontal massless cable CD determine the vertical component of the exerted by the pivot A on the aluminum pole determine the horizontal component of the force exerted by the pivot A on the aluminum pole
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Determine the tension in the horizontal massless cable CD
determine the vertical component of the exerted by the pivot A on the aluminum pole
determine the horizontal component of the force exerted by the pivot A on the aluminum pole
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- A horizontal 4.0 m long 5.0 N uniform bar at one end is attached to a wall by a frictionless hinge; and at the middle of the bar there is a vertical cable pulling down 7.0 N, and at the middle of the bar there is also a cable that is at 45 ° to the horizontal pulling up as shown. ii) What is the magnitude of the horizontal component of the force on the bar due to the hinge?A 2.00 m long horizontal uniform beam of mass 20.0 kg is supported by a wire as shown in the figure. The wire makes an angle of 20.0 degrees with the beam. Attached to the beam 1.40 m from the wall is a ball with a mass of 40 kg. What is the tension in the string? a)1,000 Nb) 1,090 N c) 2,100 N d) 2,250 N e) 2,680 Na meter log is a uniform bar of mass m = 77 kg. You want to support it at a rest parallel to the ground. so you place it on a triangle support at 33 cm mark and tie it with a rope on the ground at the 28 cm mark. A) draw your own configuration out. calculate the tension of the rope ____ N, downward, upward, right, left, or none and support force provided by the triangle support _______ N, downward, upward, right, left, or none b) suppose a gumdrop (point mass mb = 14.00 kg) hangs on to the meter log at the 91 cm mark How large will the tension be on the rope? ______ N conceptually explain why it should increase, decrease, or stay the same, compared to part A. C) Now with everything including the gumdrop, the triangle support has been moved away from the rope, to the end of the meter log.Explain why the system itself cannot stay balanced anymore, and the rope goes (T→0). Calculate: rotational inertia of the system below. I = _______ kg·m2Calculate the sizes (+ only) of both the…
- a meter log is a uniform bar of mass m = 77 kg. You want to support it at a rest parallel to the ground. so you place it on a triangle support at 33 cm mark and tie it with a rope on the ground at the 28 cm mark. A) draw your own configuration out. calculate the tension of the rope ____ N, downward, upward, right, left, or none and support force provided by the triangle support _______ N, downward, upward, right, left, or none b) suppose a gumdrop (point mass mb = 14.00 kg) hangs on to the meter log at the 91 cm mark How large will the tension be on the rope? ______ N conceptually explain why it should increase, decrease, or stay the same, compared to part A. C) Now with everything including the gumdrop, the triangle support has been moved away from the rope, to the end of the meter log.Explain why the system itself cannot stay balanced anymore, and the rope goes (T→0). Calculate: rotational inertia of the system below. I = _______ kg·m2Calculate the sizes (+ only) of both the…Problem As shown below, a horizontal beam is in equilibrium. The orange circle represents the hinge and the 5 m long cable has a tension of 594 N. 3 m 5 m 4 m 2 162 N CEFFER C Bw #3 Determine the weight of the beam as well as the magnitude & direction of the force that the hinge exerts on the beam. beam weight = hinge force magnitude = hinge force direction = $ 4 21 % 5 o relative to the horizontal. LION MacBook Pro 6 & 7 *0 o th tvA diver of mass 13.9 kg stands on one end of a diving board of mass 25.2 kg. Everything is inequilibrium (since nothing is moving). What is the magnitude of the support force on the opposite end of the diving board?A) 1,574 NB) 944 NC) 4,046 ND) 566 N