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The steel I-beam in the drawing has a weight of 7.40 kN and is being lifted at a constant velocity. What is the tension in each cable attached to its ends? (Assume α = 74.5°.)
The steel I-beam in the drawing has a weight of 7.30 kN and is being lifted at a constant velocity. What is the tension in each cable attached to its ends? (Assume α = 72.4°.)
The steel I-beam in the drawing has a weight of 8.80 kN and is being lifted at a constant velocity. What is the tension in each cable attached to its ends? (Assume α = 69.3°.)
The answer with steps please
54. The steel I-beam in the drawing has a weight of 8.00 kN and is being lifted at a constant velocity. What is the tension in each cable attached to its ends? 70.0. 70.0。 I-beam
the steel I-beam in thedrawing has a weight of 8.00 kN and is being lifted at a constantvelocity. what is the tension in each cable attached to it'sends?
Find T, the tension in the cable. Remember to account for al the forces in the problem. Express your answer in terms of m1, m2, L, d, θ, and g, the magnitude of the acceleration due to gravity. A uniform steel beam of length L and mass mi is attached via a hinge to the side of a building. The beam is supported by a steel cable attached to the end of the beam at an angle , as shown....
b Write an expression for the
tension T in the horizontal cable AB
25%
Part (c) Write an expression for the x-component
Px of the force exerted by the pivot on the
beam, in terms of T.
25%
Part (d) What is the tension in the horizontal cable, in
newtons, if the mass of the beam is 34 kg, the length of the beam
is 11 m, and the angle is 28°?
A uniform beam of length L
and mass...
A beam is attached to a vertical wall with a hinge. The mass of the beam is 1800 kg and it is 4 m long. A steel support wire is tied from the end of the beam to the wall, making an angle of 30° with the beam (see the figure below). 1)Calculate the tension in the support wire. Assume the beam has a uniform density. kN 2)What is the vertical component of the force exerted by the hinge on...
What is the cable tension in the éach of the situations? Draw a force diagram for each situation. (Note: total length of beam L 6 m) Note: Hinges supply both a horizontal and a vertical force. Please select the left most place on the object (at the hinge) as the pivot. W the weight of the beam. Parts a and b have been omitted. c) 7. rod on a hinge W 60 N d) rod on a hinge 0 45...