8. (5 pts) A uniform 1200-N piece of medical apparatus that is 3.5 m long is...
6) A uniform 1200 N weight beam that is 3,50 m long is suspended horizontally by two vertical wires at its ends, A small but dense 550 N weight is placed on the beam 2.00 m from one end as shown in the figure. The tension in wire A in Newtons is 2.00 m A) 914 B) 8190 C) 875 D) 836 E) 8960 7) In problem 14) the tension in wire B in Newtons is A) 875 8) 8960...
A 70.0 cm, uniform, 60.0 N shelf is supported horizontally by
two vertical wires attached to the sloping ceiling (Figure 1). A
very small 15.0 N tool is placed on the shelf midway between the
points where the wires are attached to it.Find the tension in the right-hand wire.Find the tension in the left-hand wire
A 50.0-cm, uniform, 50.0-N shelf is supported horizontally by two vertical wires attached to the sloping ceiling (the figure ). A very small 27.0-N tool is placed on theshelf midway between the points where the wires are attached to it1) Find the tension of left wire in Newtons?2) Find the tension of the right wire in Newtons?
A uniform 100 N beam that is 10 m long is attached to a wall
by a cable as shown in the figure below. A small but dense 50 N
weight is placed on the beam 6 m from the wall and the system is in
equilibrium. Find the horizontal and vertical reaction force from
the wall.
6 m 30° 10 m
A 70.0-cm, uniform, 50.0-N
shelf is supported horizontally by two vertical wires attached to
the sloping ceiling (the figure (Figure 1)). A very small 26.0-N
tool is placed on the shelf midway between the points where the
wires are attached to it.
Part A
Find the tension in left wire.
Part B
Find the tension in right wire.
Figure < 1 of 1 > 75.0 cm 25.0 cm Tool
A 380-N, uniform, 1.25-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 512.0 N without breaking, and cable B can support up to 443.0 N. You want to place a small weight on this bar. What is the heaviest weight you can put on without breaking either cable? Where should you put this weight?
A 352-N, uniform, 1.68-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 516.0 N without breaking, and cable B can support up to 434.0 N . You want to place a small weight on this bar Part A What is the heaviest weight you can put on without breaking either cable? Part B Where should you put this weight?
#4 please
A uniform sheet of metal in the shape of a hemisphere of radius 1 m is used as a sign. The hemisphere has a mass of 200 kg and is suspended by two vertical wires attached to points along its horizontal diameter. One wire is attached to the left end of the diameter and the other is attached to a point three-quarters of the way to the other end. What is the tension in each wire? A ladder...
Support Rope 2.6 m Problem #3 (30 pts) A uniform strut weighing 100 N is hinged to a wall, is used to support an 800-N block as shown. The strut is 5 meters long and a support rope is attached to the far end of the strut and attached to the wall. The rope is held horizontally and keeps the far end of the strut 2.6 m away from the wall. (a) (10 pts) Draw the torque and fort diagrams...
A 397-N, uniform, 1.32-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 510.0 N without breaking, and cable B can support up to 413.0 N . You want to place a small weight on this bar. Part APart complete What is the heaviest weight you can put on without breaking either cable? Part B Where should you put this weight, what is d?