An 8 m long uniform beam of mass 13 kg is supported by a platform 1...
An 8 m long uniform beam of mass 13 kg is supported by a platform 1 m from its right side and a rope 1 m from its left side. If the rope can sustain a maximum tension of 256 N, how far to the left of the platform could a 47-kg person walk before the rope would break?
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An 8 m long uniform beam of mass 13 kg is supported by a
platform 1...
A uniform 35.5-kg beam of length ℓ = 5.60 m is supported by a vertical rope...
A uniform 35.5-kg beam of length ℓ = 5.60 m is supported by a vertical rope located d = 1.20 m from its left end as in the figure below. The right end of the beam is supported by a vertical column. (a) Find the tension in the rope. (b) Find the force that the column exerts on the right end of the beam. (Enter the magnitude.)
2 24. A 6-m long platform is hung by two ropes as shown below. The platform...
2 24. A 6-m long platform is hung by two ropes as shown below. The platform has a mass of 150 kg. (Assume gravity acts on the midpoint of the platform.) There is a person standing at the far right edge of the platform, 1.5 m from the right rope. The person has a mass of 70 kg. 1.5 m What is the tension in the left rope? 3 m a) 841 N b) 1078 N c) 2156 N d)...
A uniform plank of length 2.00 m and mass 34.0 kg is supported by three ropes,...
A uniform plank of length 2.00 m and mass 34.0 kg is supported by three ropes, as indicated by the blue vectors in the figure below. Find the tension in each rope when a 685–N person is d = 0.500 m from the left end. magnitude of T1 N magnitude of T2 N magnitude of T3 N A person stands on a horizontal 2.00 m long plank a distance d from the left end. The plank is supported by three...
A worker stands a distance d = 0.250 m from the left end of a beam as shown in the figure. The beam is supported by thre...
A worker stands a distance
d = 0.250 m
from the left end of a beam as shown in the figure. The beam is
supported by three ropes. Find the tension in each rope (in N).
Assume the beam is uniform, with length L = 2.00 m and
mass 34.0 kg, and the weight of the worker is 710 N. (Due to the
nature of this problem, do not use rounded intermediate values in
your calculations—including answers submitted in
WebAssign.)...
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 uniform beam (mass M = 64.0 kg and length L = 4.90 m) is supported...
A uniform beam (mass M = 64.0 kg and length L = 4.90 m) is supported by two triangular supports that are placed a distance D = 2.94 m apart, as shown below. The left-most support is at the very end of the beam. A person (mass m = 22.0 kg) starts walking at constant speed v along the beam, beginning from some point between the two supports. How close can the person get to the right-most end of the...
A 14 m beam is supported in the middle. A 13 kg mass is on the...
A 14 m beam is supported in the middle. A 13 kg mass is on the left end. What mass in kg must be located at a point 5 metres from the right end in order to produce equilibrium?
A 2.000 m long horizontal uniform beam of mass 20.00 kg is supported by a wire...
A 2.000 m long horizontal uniform beam of mass 20.00 kg is supported by a wire as shown in the figure. The wire makes an angle of 20.00 degrees with the beam. Attached to the beam 1.400 m from the wall is a ball with a mass of 40.00 kg. What are the vertical and horizontal components of the force of the wall on the beam at the hinge?
A uniform plank of length 2.00 m and mass 28.5 kg is supported by three ropes...
A uniform plank of length 2.00 m and mass 28.5 kg is supported by three ropes as indicated by the blue vectors in the figure below. Find the tension in each rope when a 715 N person is d = 0.425 m from the left end. |T_1| = N |T_2| = N |T_3| = N
A uniform plank of length 2.00 m and mass 32.5 kg is supported by three ropes...
A uniform plank of length 2.00 m and mass 32.5 kg is supported by three ropes as indicated by the blue vectors in the figure below. Find the tension in each rope when a 720 N person is d = 0.425 m from the left end. |T1| = N |T2| = N |T3| = N
2 24. A 6-m long platform is hung by two ropes as shown below. The platform has a mass of 150 kg. (Assume gravity acts on the midpoint of the platform.) There is a person standing at the far right edge of the platform, 1.5 m from the right rope. The person has a mass of 70 kg. 1.5 m What is the tension in the left rope? 3 m a) 841 N b) 1078 N c) 2156 N d)...
A worker stands a distance
d = 0.250 m
from the left end of a beam as shown in the figure. The beam is
supported by three ropes. Find the tension in each rope (in N).
Assume the beam is uniform, with length L = 2.00 m and
mass 34.0 kg, and the weight of the worker is 710 N. (Due to the
nature of this problem, do not use rounded intermediate values in
your calculations—including answers submitted in
WebAssign.)...
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 uniform beam (mass M = 64.0 kg and length L = 4.90 m) is supported by two triangular supports that are placed a distance D = 2.94 m apart, as shown below. The left-most support is at the very end of the beam. A person (mass m = 22.0 kg) starts walking at constant speed v along the beam, beginning from some point between the two supports. How close can the person get to the right-most end of the...
A uniform plank of length 2.00 m and mass 28.5 kg is supported by three ropes as indicated by the blue vectors in the figure below. Find the tension in each rope when a 715 N person is d = 0.425 m from the left end. |T_1| = N |T_2| = N |T_3| = N
A uniform plank of length 2.00 m and mass 32.5 kg is supported by three ropes as indicated by the blue vectors in the figure below. Find the tension in each rope when a 720 N person is d = 0.425 m from the left end. |T1| = N |T2| = N |T3| = N
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