6) A uniform 1200 N weight beam that is 3,50 m long is suspended horizontally by...
14. A uniform beam with length 3.50 m and weight 425 N is suspended so that it is horizontal. It is held in place by a hinge and wire, as indicated in the figure. The wire will snap if the tension in it exceeds 1050 N. What value of Y corresponds to that tension? Should you increase or decrease Y if you don't want the wire to break?
In the figure, a uniform beam of weight 550 N and length 2.3 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? Number Units im The number of significant digits is set to 2, the tolerance is +/-1%
A uniform horizontal beam with a length l = 8.00 m and weight of Wb = 200 N is attached to a wall by a pin connection. Its far end is supported by a cable that makes an angle of θ = 53.0◦ with the beam. A person of weight Wp = 600 N stands a distance d = 2.00 m from the wall. Find the tension in the cable.
8. (5 pts) A uniform 1200-N piece of medical apparatus that is 3.5 m long is suspended horizontally by two vertical wires at its ends. A small but dense 550-N weist is placed on the apparatus 2.0 m from one end, as shown below. Determine the tension B in the wire. 2.0 m 3.5 m
A uniform beam of length L - 4.0 m and weight W - 100 N is free to rotate about a pivot situated at a distance d = 1.4 m from one end. When the beam is horizontal, a force F - 40 N is applied at one end of the beam, at shown in the figure. Calculate the net torque exerted on the beam, in Nm. Do not type in units. F a d L/2 4/2 w
A uniform 100 N beam that is 10 m long is attached to a wall
by a cable as shown in the figure below. A small but dense 50 N
weight is placed on the beam 6 m from the wall and the system is in
equilibrium. Find the horizontal and vertical reaction force from
the wall.
6 m 30° 10 m
13. A non-uniform beam 4.50 m long and weighing 1.35 kN makes an angle 25o below the horizontal. It is supported by a cable 3.0 m farther down the beam and perpendicular to it. The center of gravity of the beam is 2.0 m down the beam from the pivot. Lightning equipment exerts a 5.00 kN downward force on the lower left end of the beam. Find tension T in the cable 4 points 25 Pivot Cable Center of gravity...
a uniform 2.86 m long beam of mass M is attached to a wall by a frictionless pivot at A. There is a cable attached at B, which is 1.93 m from A, and at C, which is 1.16 m above A as shown. The forces at A and the mass M are unknown, but the tension T in the cable is 874 N. Calculate the mass M of the beam and the horizontal force Ax at the pivot.
A uniform horizontal beam of length 8 m and weight 200 N is attached to a wall by a pin connection that allows the beam to rotate. Its far end is supported by a cable that makes an angle of 53degree with the horizontal. If a cable is strong enough to withstand T= 1200 N how heavy person can walk to the end of the beam? When that person was at the 0.75 distance from the wall, find: a. the...
Uniform beam AD is 8 m long and has a weight of 200 N. It is
kept at equilibrium on two supports at B and C. Two additional
weights 240 N and 120 N hanging on the beam as shown below. The
magnitude of support force at B, F1 is
a.
192 N
b.
336 N
c.
320 N
d.
304 N
e.
512 N
F1 F2 А B D AB=1 m._BC =5m, CD=2 m 240 N 120 N