A uniform plank of mass 30kg and length 20m is supported by two
ropes T1 and T2 attached as shown on the diagram. Two masses 20kg
and 25kg are suspended are shown to keep the plank in equilibrium.
Find the tension T1 and T2 due to the two ropes.
I'm having trouble with this question. Would love to see the
actual work, so I can understand the concept.
4. A uniform plank of mass 30 kg and length 20 m,...
This question is worth 20 marks Figure 2 shows a decorator's plank, which is 5 m in length, supported on two trestles. The mass of the plank is 37 kg and the mass of the decorator is 70 kg. In order to paint a stairwell the decorator has to position themselves at point A, as shown on Figure 2. To stop the plank tipping, the decorator's assistant attaches weights to a rope at point B Figure 2 The decorator's plank...
MC2. Three masses are located on the x axis. A 2.00 kg mass is located at x = +2.00 m; a 3.00 kg mass is located at x = +1.50 m and a 4.00 kg mass is located at x=-1.00 m. Where should you put a 6.00 kg mass so the center of mass of the entire system is located at the origin x = 0? (a) -0.75 m (b)-0.27 m (c) 0.27 m (d) 0.73 m (e) 1.27 m...
A plank of length L=1.800 m and mass M 9.00 kg is suspended horizontally by a thin cable at one end and to a pivot on a wall at the other end as shown. The cable is attached at a height H=1.50 m above the pivot and the plank's CM is located fron distance d=0.500 m he pivot H CM d Calculate the tension in the cable.
A plank of length L 2.000 m and mass M 4.00 kg is suspended horizontally by a thin cable at one end and to a pivot on a wall at the other end as shown. The cable is attached at a height H 1.40 m above the pivot and the plank's CM is located a distance d 0.600 m from the pivot H2 CM d L Calculate the tension in the cable. 29.29N
Two masses are placed on the x axis. The first mass 360 kg is located at x = 3.70 cm , the second mass 690 kg is at the origin Find the gravitational force between the two masses. 3 sig. fig
Suppose a crate of mass 3.0 kg is placed on the plank in the
figure below at a distance x
= 8.1 m from the left end. If the plank has a mass of 12
kg, find the forces exerted by the two supports on the plank (left
support and right support).
3.0 m .0 m
particle 13.9 A particle of mass 3m is located 1.00 m from a of mass m. (a) Where should you put a third mass M so that the ull of the sun on net gravitational force on M due to the two masses is exactly zero? ume the distance (b) Is the equilibrium of M at this point stable or unstable () for y the distance of points along the line connecting m and 3m, and (ii) for points dix...
A 50 lb motor is bolted to the middle of a 72-inch long plank, and x is the displacement of the motor from its equilibrium position. The plank may be modeled as a simply supported beam with EI 18 x 10 lb-in2. Use the inch-pound-second system of units to work this problem, and use g 386 in/sec2 a) Neglect the mass of the plank and find the system's undamped natural frequency of vibration (ansuwer: f 21.3 Hz) b) Suppose the...
Suppose a crate of mass 8.6 kg is placed on the plank in the
figure below at a distance x = 3.3 m from the left end. If the
plank has a mass of 12 kg, find the forces exerted by the two
supports on the plank. (Indicate the direction with the sign of
your answer.) l
eft support ------- N
right support ------ N
3.0 m .0 m