In the figure, a uniform beam with a weight of 56.9 N and a length of...

A 209.8 kg uniform, horizontal beam is hinged at one end and at the other is...

A 209.8 kg uniform, horizontal beam is hinged at one end and at the other is supported by a cable that is at 23 degrees to the vertical. The beam is 2.39 m long. Calculate the magnitude of the force (in N) at the hinge.

A 23.0 kg beam is attached to a wall with a hinge while its far end...

A 23.0 kg beam is attached to a wall with a hinge while its far end is supported by a cable such that the beam is horizontal. If the angle between the beam and the cable is θ = 57.0° what is the vertical component of the force exerted by the hinge on the beam?

A uniform horizontal beam with length l= 7.1m and weight W b= 420N is attached to...

A uniform horizontal beam with length l= 7.1m and weight W b= 420N is attached to the wall by a pin connection. Its far end is supported by a cable that makes an angle of θ=60° with the beam. Furthermore, a picnic basket of weight WP= 201N is hanging from the far end of the beam. The hungry Yogy bear with a weight of WY= 816N is standing on a beam at a distance d=8.0m from the wall. a) Calculate...

A 110 kg uniform beam is attached to a vertical wall at one end and is...

A 110 kg uniform beam is attached to a vertical wall at one end and is supported by a cable at the other end. Calculate the magnitude of the vertical component of the force that the wall exerts on the left end of the beam if the angle between the cable and horizontal is θ = 39°.

A 171.4 kg uniform, horizontal beam is hinged at one end and at the other is...

A 171.4 kg uniform, horizontal beam is hinged at one end and at the other is supported by a cable that is at 27 degrees to the left of the vertical. The beam is 3.98 m long. Calculate the direction of the force at the hinge (measured with respect to the horizontal). Answer with a number in degrees.

A 560-N uniform rectangular sign 4.00 m wide and 3.00 m high is suspended from a...

A 560-N uniform rectangular sign 4.00 m wide and 3.00 m high is suspended from a horizontal, 6.00-m-long, uniform, 120-N rod as indicated in the figure below. The left end of the rod is supported by a hinge and the right end is supported by a thin cable making a 30.0° angle with the vertical. (Assume the cable is connected to the very end of the 6.00-m-long rod, and that there are 2.00 m separating the wall from the sign.)...

A 10.0 kg beam is attached to a wall by means of a hinge. A cable...

A 10.0 kg beam is attached to a wall by means of a hinge. A cable is attached to the beam at a point halfway across the beam's length and pulls back at an angle of theta=40 degrees. A 5.00 kg box of desserts is attached at the end of the beam. a) What tension T in the support cable is required to maintain equilibrium? b) What vertical force acts on the hinge?

A uniform horizontal beam with length l= 8.2m and weight W b= 345N is attached to...

A uniform horizontal beam with length l= 8.2m and weight W b= 345N is attached to the wall by a pin connection. Its far end is supported by a cable that makes an angle of θ=60° with the beam. Furthermore, a picnic basket of weight WP= 87N is hanging from the far end of the beam. The hungry Yogy bear with a weight of WY= 758N is standing on a beam at a distance d=2.0m from the wall. Calculate the...

Figure shows a safe (M = 430 kg) hanging by a rope (negligible mass) from a...

Figure shows a safe (M = 430 kg) hanging by a rope (negligible mass) from a boom (a = 1.9 m and b = 2.5 m) that consists of a uniform hinged beam (m = 85 kg) and horizontal cable (negligible mass). a) What is the tension in the cable? In other words, what is the magnitude of the tension force on the beam from the cable? b) Find the magnitude of the net force on the beam from the...

A uniform steel beam (mass 43.7 kg, length 9.79 m) is hinged at one end to...

A uniform steel beam (mass 43.7 kg, length 9.79 m) is hinged at one end to a wall and has two wires attached at the other end. Wire 1 (length 4.67 m) is horizontal and is attached to the wall, and wire 2 is vertical and is attached to the floor If the system is in equilibrium and the tension in wire 2 is 130 N, find the magnitude of the tension in wire 1, in N.