Consider a 603 N cat burglar supported by a cable as in the figure. Given: 42.9◦...

Consider the figure below. An illustration shows a burglar suspended from the lower end of a...

Consider the figure below. An illustration shows a burglar suspended from the lower end of a vertical cable. The upper end of the cable is attached to one end of a horizontal cable and one end of a diagonal cable. The horizontal cable extends to the left and terminates at a vertical wall. The diagonal cable extends upward and to the right and terminates at a horizontal surface with which it forms an angle θ. (a) Find the tension in...

A 1,100–N uniform boom at ϕ = 65.5° to the horizontal is supported by a cable...

A 1,100–N uniform boom at ϕ = 65.5° to the horizontal is supported by a cable at an angle θ = 24.5° to the horizontal as shown in the figure below. The boom is pivoted at the bottom, and an object of weight w = 2,150 N hangs from its top. (a) Find the tension in the support cable. (b) Find the horizontal & vertical components of the reaction force exerted by the pivot on the boom. (Assume the positive...

A 176.4-N bird feeder is supported by three cables as shown in the figure below. Find...

A 176.4-N bird feeder is supported by three cables as shown in the figure below. Find the tension in each cable. left cable     N right cable     N bottom cable     N

A 1,300–N uniform boom at ϕ = 60.0° to the horizontal is supported by a cable...

A 1,300–N uniform boom at ϕ = 60.0° to the horizontal is supported by a cable at an angle θ = 30.0° to the horizontal as shown in the figure below. The boom is pivoted at the bottom, and an object of weight w = 1,950 N hangs from its top. A boom of length l with its bottom end on a pivot is shown. The boom points up and to the right and makes an angle ϕ with the...

In the figure (see the end of this document), if the tension in the cable attaching...

In the figure (see the end of this document), if the tension in the cable attaching the platform to the building on the left is 650 N, find: (a) the tension in the cable attaching the platform to the building on the right, and (b) the mass of the platform.

In one of the versions of the "Giant Swing", the seat is connected to two cables,...

In one of the versions of the "Giant Swing", the seat is connected to two cables, one of which is horizontal (Figure 1) . The seat swings in a horizontal circle at a rate of 35.0 rev/min . a. If the seat weighs 265 N and a 869-N person is sitting in it, find the tension in the horizontal cable. b. F ind the tension in the inclined cable.

In the figure, a uniform beam of weight 470 N and length 3.6 m is suspended...

In the figure, a uniform beam of weight 470 N and length 3.6 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 1400 N. What value of D corresponds to that tension?

A 165-N sign is supported by two ropes. One rope pulls up and to the right...

A 165-N sign is supported by two ropes. One rope pulls up and to the right 35.5° above the horizontal with a tension T1, and the other rope pulls up and to the left 50.5° above the horizontal with a tension T2, as shown in the figure. Find the tensions T1 and T2.

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 165 N sign is supported by two ropes. One rope pulls up and to the...

A 165 N sign is supported by two ropes. One rope pulls up and to the right θ 1 = 35.5 ∘ above the horizontal with a tension T 1 , and the other rope pulls up and to the left θ 2 = 50.5 ∘ above the horizontal with a tension T 2 , as shown in the figure. Find the tensions T 1 and T 2 .