A 192kg uniform beam is hinged at one end, and the other end is supported by...
A 192kg uniform beam is hinged at one end, and the other end is supported by a cable that is 21 degrees to the vertical. The beam is 2 meters long, and is 14 degrees above the horizontal. Calculated the direction of the force in the hinge with respect to the horizontal. Assume the cable has no mass.
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A 192kg uniform beam is hinged at one end, and the other end is
supported by...
A 207.8 kg uniform, a horizontal beam is hinged at one end and at the other...
A 207.8 kg uniform, a horizontal beam is hinged at one end and at the other is supported by a cable that is at 26 degrees to the left of the vertical. The beam is 2.63 m long. Calculate the direction of the force at the hinge (measured with respect to the horizontal). Answer with a number in degrees
A 206.8 kg uniform, horizontal beam is hinged at one end and at the other is...
A 206.8 kg uniform, horizontal beam is hinged at one end and at the other is supported by a cable that is at 29 degrees to the left of the vertical. The beam is 2.39 m long. Calculate the direction of the force at the hinge (measured with respect to the horizontal). Answer with a number in degrees
A 171.5 kg uniform, horizontal beam is hinged at one end and at the other is...
A 171.5 kg uniform, horizontal beam is hinged at one end and at the other is supported by a cable that is at 28 degrees to the vertical. The beam is 2.93 m long. Calculate the magnitude of the force (in N) at the hinge.
A 202 kg uniform, beam is hinged at one end and at the other is supported...
A 202 kg uniform, beam is hinged at one end and at the other is supported by a cable that is at 23 degrees to the left of the vertical. The beam is 2.8 m long and is at 6 degrees above the horizontal. Calculate the tension in the cable (in N)
In the figure, one end of a uniform beam of weight 460 N is hinged to...
In the figure, one end of a uniform beam of weight 460 N is hinged to a wall; the other end is supported by a wire that makes angles theta = 26 degree with both wall and beam. Find (a) the tension in the wire and the (b) horizontal and (c) vertical components of the force of the hinge on the beam.
In Fig. 12-33, one end of a uniform beam of mass 40.0 kg is hinged to...
In Fig. 12-33, one end of a uniform beam of mass 40.0 kg is hinged to a wall: the other end is supported by a wire that makes angles theta = 30.0degree with both wall and beam. Find the tension in the wire and the magnitude and angle from the horizontal of the force of the hinge on the beam.
A 15 kg uniform beam, 2 m in length, is supported at it's end by a...
A 15 kg uniform beam, 2 m in length, is supported at it's end by a cable as shown below. The angle between the cable and the horizontal is 45 degrees. 2. Cable Beam Find the horizontal and vertical components of the force from the hinge (left end of the beam) acting on the beam a. b. If the tension in the cord exceeds 115N, the cord will break. Will placing a 5 kg mass at the right end of...
A 150kg uniform beam is attached to a vertical wall at one end and is supported by a cable at the other end. a) Calculate the magnitude of the vertical component of the force that the wall exerts on the left of the beam if the angle between the cable and
A 150kg uniform beam is attached to a vertical wall at one end and is supported by a cable at the other end. a) Calculate the magnitude of the vertical component of the force that the wall exerts on the left of the beam if the angle between the cable and the horizontal is theta = 42 degrees.
One end of a uniform beam that weighs 2.95 x 102 N is attached to a...
One end of a uniform beam that weighs 2.95 x 102 N is attached to a wall with a hinge pin. The other end is supported by a cable making the angles shown in the figure below. Find the horizontal and vertical components of the force exerted by the hinge pin on the beam. (Assume ?1-370 and ?2-329. Indicate the direction with the sign of your answer. Assume that the +x direction points horizontally outward from the wall and that...
A 2.0 m long uniform beam is supported by a cable as shown below. The cable...
A 2.0 m long uniform beam is supported by a cable as shown below. The cable is at an angle of 35 degree to the horizontal and has a tension of 300 N. Find the vertical and horizontal forces of the hinge and the mass of the beam.
In the figure, one end of a uniform beam of weight 460 N is hinged to a wall; the other end is supported by a wire that makes angles theta = 26 degree with both wall and beam. Find (a) the tension in the wire and the (b) horizontal and (c) vertical components of the force of the hinge on the beam.
In Fig. 12-33, one end of a uniform beam of mass 40.0 kg is hinged to a wall: the other end is supported by a wire that makes angles theta = 30.0degree with both wall and beam. Find the tension in the wire and the magnitude and angle from the horizontal of the force of the hinge on the beam.
A 15 kg uniform beam, 2 m in length, is supported at it's end by a cable as shown below. The angle between the cable and the horizontal is 45 degrees. 2. Cable Beam Find the horizontal and vertical components of the force from the hinge (left end of the beam) acting on the beam a. b. If the tension in the cord exceeds 115N, the cord will break. Will placing a 5 kg mass at the right end of...
One end of a uniform beam that weighs 2.95 x 102 N is attached to a wall with a hinge pin. The other end is supported by a cable making the angles shown in the figure below. Find the horizontal and vertical components of the force exerted by the hinge pin on the beam. (Assume ?1-370 and ?2-329. Indicate the direction with the sign of your answer. Assume that the +x direction points horizontally outward from the wall and that...
A 2.0 m long uniform beam is supported by a cable as shown below. The cable is at an angle of 35 degree to the horizontal and has a tension of 300 N. Find the vertical and horizontal forces of the hinge and the mass of the beam.
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