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3 Long Answer Question 1.In the picture shown below, the beam is uniform and has a...
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...
A uniform, 24.5 kg beam of length 2.90 m is hanging horizontally as shown in the...
A uniform, 24.5 kg beam of length 2.90 m is hanging horizontally
as shown in the diagram below. It is pinned to a vertical wall at
point B and supported by a uniform 15.9 kg diagonal brace that is
pinned at point C on the beam and at point A on the
wall. [Use g = 9.80 m/s2.]
There is a load W, with a weight of 211 N, hanging at the end of
the horizontal beam. The distance BC is...
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.
9) A beam of mass 16 kg and length 1.2 m is supported in two ways:...
9) A beam of mass 16 kg and length 1.2 m is supported in two
ways: at the wall with a hinge, and by a rope tied to its other end
at an angle θ = 34◦ , as Figure 3 shows. At the hinge the wall
exerts on the beam a force F
of unknown direction and magnitude (shown as a dashed arrow). a)
Write three equilibrium equations: for rotation around the hinge
(balancing torques), and for translation in...
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...
Problem #2: 25 points A 24m long, horizontal beam is attached to a wall by a...
Problem #2: 25 points A 24m long, horizontal beam is attached to a wall by a hinge. A support cable, 26 m long, is attached to the other end of the beam and attached to the wall 10m above the hinge, forming a 5, 12, 13 right triangle (HINT: leave sin and cos as a simple ratio of integers). The load hanging from the very end of the beam is 1000 Kg and the beam has a mass of 300Kg....
2) See Figure 2. A 35 kg sign is suspended from the end of a uniform...
2) See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal beam that has a mass of 25 kg and a length of 3.0 m. The beam is attached to a wall by a hinge. A cable with negligible mass is attached to the end of the beam just above the sign and extends to the wall, forming an angle of 30° with the beam. cable beam Physics is Phun Figure 2 a) Sketch...
See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal...
See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal beam that has a mass of 25 kg and a length of 3.0 m. The beam is attached to a wall by a hinge. A cable with negligible mass is attached to the end of the beam just above! the sign and extends to the wall, forming an angle of 30° with the beam. cable beam Physics is Phun Figure 2 WT 1173337 a)...
Exercise 11 A squarish object is suspended from the end of a long, uniform bar tilted...
Exercise 11 A squarish object is suspended from the end of a long, uniform bar tilted at an angle 0 above the horizontal. The bar's lower end is anchored to a wall, and the upper end is attached to a horizontal cable anchored to the same wall. All parts of this system are in equilibrium. cable wall object (a) Create a complete FBD for the bar. The FBD should not show the hanging object, the wall, or the cable, just...
Please help me with both parts b and c. I am confused Constants A 9.00 m...
Please help me with both parts
b and c. I am confused
Constants A 9.00 m uniform beam is hinged to a vertical wall and held horizontally by a 5.00 m cable attached to the wall 4.00 m above the hinge, as shown in the figure below (Figure 1). The metal of this cable has a test strength of 1.10 kN , which means that it will break if the tension in it exceeds that amount. Part A What is...
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...
A uniform, 24.5 kg beam of length 2.90 m is hanging horizontally
as shown in the diagram below. It is pinned to a vertical wall at
point B and supported by a uniform 15.9 kg diagonal brace that is
pinned at point C on the beam and at point A on the
wall. [Use g = 9.80 m/s2.]
There is a load W, with a weight of 211 N, hanging at the end of
the horizontal beam. The distance BC is...
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.
9) A beam of mass 16 kg and length 1.2 m is supported in two
ways: at the wall with a hinge, and by a rope tied to its other end
at an angle θ = 34◦ , as Figure 3 shows. At the hinge the wall
exerts on the beam a force F
of unknown direction and magnitude (shown as a dashed arrow). a)
Write three equilibrium equations: for rotation around the hinge
(balancing torques), and for translation in...
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...
Problem #2: 25 points A 24m long, horizontal beam is attached to a wall by a hinge. A support cable, 26 m long, is attached to the other end of the beam and attached to the wall 10m above the hinge, forming a 5, 12, 13 right triangle (HINT: leave sin and cos as a simple ratio of integers). The load hanging from the very end of the beam is 1000 Kg and the beam has a mass of 300Kg....
2) See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal beam that has a mass of 25 kg and a length of 3.0 m. The beam is attached to a wall by a hinge. A cable with negligible mass is attached to the end of the beam just above the sign and extends to the wall, forming an angle of 30° with the beam. cable beam Physics is Phun Figure 2 a) Sketch...
See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal beam that has a mass of 25 kg and a length of 3.0 m. The beam is attached to a wall by a hinge. A cable with negligible mass is attached to the end of the beam just above! the sign and extends to the wall, forming an angle of 30° with the beam. cable beam Physics is Phun Figure 2 WT 1173337 a)...
Exercise 11 A squarish object is suspended from the end of a long, uniform bar tilted at an angle 0 above the horizontal. The bar's lower end is anchored to a wall, and the upper end is attached to a horizontal cable anchored to the same wall. All parts of this system are in equilibrium. cable wall object (a) Create a complete FBD for the bar. The FBD should not show the hanging object, the wall, or the cable, just...
Please help me with both parts
b and c. I am confused
Constants A 9.00 m uniform beam is hinged to a vertical wall and held horizontally by a 5.00 m cable attached to the wall 4.00 m above the hinge, as shown in the figure below (Figure 1). The metal of this cable has a test strength of 1.10 kN , which means that it will break if the tension in it exceeds that amount. Part A What is...
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