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2. A steel beam has a length of 8.0 meters and a mass of...
please include a free body diagram for explanation amd how to solve 2. A steel beam...
please include a free body diagram for explanation amd how to
solve
2. A steel beam has a length of 8.0 meters and a mass of 175 kg. It is placed on a fulcrum 2.5 meters from the left edge. A concrete block of mass 120 kg is placed 3.5 meters to the right of the fulcrum. Clearly, the beam would rotate clockwise in this situation. To prevent the rotation, a vertical cable is connected to the right edge of...
help 5. A uniform beam of mass M-250 kg and length / 10.0 m is mounted...
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5. A uniform beam of mass M-250 kg and length / 10.0 m is mounted to a wall by a strong hinge and a cable, as shown. A steel block of mass m 685 kg is placed on the beam a distancex 2.5 m from the hinge. The cable is at an angle 6 400, as shown. 6/ a. Calculate the tension in the cable. b. Calculate the horizontal component of the force the hinge exerts on the beam....
help, please. Instructions: Enclose final answer(s) in a box. Show starting equations and enough steps of...
help, please.
Instructions: Enclose final answer(s) in a box. Show starting equations and enough steps of your work for me to follow (and give partial credit when possible). 12 Score: points 1. A beam has a length of 10.00 meters and a mass of 133 kg. It is to be balanced on a fulcrum 2.65 meters from the right edge. A block of mass 135 kg is placed at the extreme right end of beam. a. How far from the...
5. A uniform beam of mass M- 250 kg and length l- 10.0 m is mounted...
5. A uniform beam of mass M- 250 kg and length l- 10.0 m is mounted to a wall by a strong hinge and a cable, as shown. A steel block of mass m = 685 kg is placed on the beam a distance x-2.5 m from the hinge. The cable is at an angle -40°, as shown. a. b. c. d. Calculate the tension in the cable. Calculate the horizontal component of the force the hinge exerts on the...
As shown below, a beam of mass M = 34 kg and length L = 6.8...
As shown below, a beam of mass M = 34 kg and length L = 6.8 m is attached to a vertical wall by a hinge and to a horizontal ceiling by a cable. The angle between the beam and the wall is theta = 75 degree, the angle between the cable and the ceiling is phi = 58 degree, and the cable is attached to the beam at a point which is a distance s = 2.2 m from...
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached to the wall. A mass of 75 kg is hung from the beam 3 meters away from the hinge (see (Figure 2)). Now what is the tension force...
#2 1. A block of wood has a mass of 25 kg and a density of...
#2
1. A block of wood has a mass of 25 kg and a density of 650 kg/m'. You are holding it under water by pushing downward. a) What is the volume of the block of wood? b) What is the buoyant force on it? c) What is the magnitude of the downward force you are exerting to hold the block under water? 2. In the diagram, the hinge is frictionless and the system is in equilibrium. The uniform beam...
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached to the wall. A mass of 75 kg is hung from the beam 3 meters away from the hinge (see (Figure 2)). What is the vertical component of...
The uniform steel beam of mass m = 14.2 kg and length / = 310 mm...
The uniform steel beam of mass m = 14.2 kg and length / = 310 mm is suspended by the two cables at A and B. If the cable at B suddenly breaks, determine the tension T in the cable at A immediately after the break occurs. Treat the beam as a slender rod 59 F 59° Answer: T- 139.55 the tolerance is +/-2%
The uniform steel beam of mass m and length is suspended by the two cables at...
The uniform steel beam of mass m and length is suspended by the two cables at A and B. If the cable at B suddenly breaks, determine the tension Tin the cable at A immediately after the break occurs. Treat the beam as a slender rod and show the result is independent of the length of the beam. 60° 60°
please include a free body diagram for explanation amd how to
solve
2. A steel beam has a length of 8.0 meters and a mass of 175 kg. It is placed on a fulcrum 2.5 meters from the left edge. A concrete block of mass 120 kg is placed 3.5 meters to the right of the fulcrum. Clearly, the beam would rotate clockwise in this situation. To prevent the rotation, a vertical cable is connected to the right edge of...
help
5. A uniform beam of mass M-250 kg and length / 10.0 m is mounted to a wall by a strong hinge and a cable, as shown. A steel block of mass m 685 kg is placed on the beam a distancex 2.5 m from the hinge. The cable is at an angle 6 400, as shown. 6/ a. Calculate the tension in the cable. b. Calculate the horizontal component of the force the hinge exerts on the beam....
help, please.
Instructions: Enclose final answer(s) in a box. Show starting equations and enough steps of your work for me to follow (and give partial credit when possible). 12 Score: points 1. A beam has a length of 10.00 meters and a mass of 133 kg. It is to be balanced on a fulcrum 2.65 meters from the right edge. A block of mass 135 kg is placed at the extreme right end of beam. a. How far from the...
5. A uniform beam of mass M- 250 kg and length l- 10.0 m is mounted to a wall by a strong hinge and a cable, as shown. A steel block of mass m = 685 kg is placed on the beam a distance x-2.5 m from the hinge. The cable is at an angle -40°, as shown. a. b. c. d. Calculate the tension in the cable. Calculate the horizontal component of the force the hinge exerts on the...
As shown below, a beam of mass M = 34 kg and length L = 6.8 m is attached to a vertical wall by a hinge and to a horizontal ceiling by a cable. The angle between the beam and the wall is theta = 75 degree, the angle between the cable and the ceiling is phi = 58 degree, and the cable is attached to the beam at a point which is a distance s = 2.2 m from...
#2
1. A block of wood has a mass of 25 kg and a density of 650 kg/m'. You are holding it under water by pushing downward. a) What is the volume of the block of wood? b) What is the buoyant force on it? c) What is the magnitude of the downward force you are exerting to hold the block under water? 2. In the diagram, the hinge is frictionless and the system is in equilibrium. The uniform beam...
The uniform steel beam of mass m = 14.2 kg and length / = 310 mm is suspended by the two cables at A and B. If the cable at B suddenly breaks, determine the tension T in the cable at A immediately after the break occurs. Treat the beam as a slender rod 59 F 59° Answer: T- 139.55 the tolerance is +/-2%
The uniform steel beam of mass m and length is suspended by the two cables at A and B. If the cable at B suddenly breaks, determine the tension Tin the cable at A immediately after the break occurs. Treat the beam as a slender rod and show the result is independent of the length of the beam. 60° 60°
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