A lightweight, non-stretchable cable wraps around a
cylinder
solid with a mass of 50 kg and 0.120 m in diameter, which rotates
around
of a horizontal fixed shaft and is mounted on frictionless bearings
(figure 9.16). A constant force of 9.0 N pulls the free end of
the
cable a distance of 2.0 m, rotating the cylinder as it unwinds
without slipping. If the cylinder is initially at rest,
calculate
its final angular speed and the final speed of the cable.
Homework Answers
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A lightweight, non-stretchable cable wraps around a
cylinder
solid with a mass of 50 kg and...
Why can you not solve the problem using constant angular acceleration equations? Please explain in detail...
Why can you not solve the problem using constant angular
acceleration equations? Please explain in detail w a diagram.
EXAMPLE 9.7 AN UNWINDING CABLE I We wrap a light, nonstretching cable around a solid cylinder, of mass 50 kg and diameter 0.120 m, that rotates in frictionless bear- ings about a stationary horizontal axis (Fig. 9.16). We pull the free end of the cable with a constant 9.0-N force for a distance of 2.0 m; it turns the cylinder as...
We wrap a light, flexible cable around a solid cylinder with mass 0.68 kg and radius 0.17...
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A light cable is wrapped around a solid cylinder with mass M = 1.50 kg and...
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Part A A uniform disk has a mass of 2.3 kg and a radius of 0.24...
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A uniform cylinder of mass 3.0 kg and radius 10.0 cm has a rope wrapped around...
A uniform cylinder of mass 3.0 kg and radius 10.0 cm
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The cylinder is changed to one with the same mass and radius, but a
different moment of inertia. Starting from rest, the mass now moves...
Why can you not solve the problem using constant angular
acceleration equations? Please explain in detail w a diagram.
EXAMPLE 9.7 AN UNWINDING CABLE I We wrap a light, nonstretching cable around a solid cylinder, of mass 50 kg and diameter 0.120 m, that rotates in frictionless bear- ings about a stationary horizontal axis (Fig. 9.16). We pull the free end of the cable with a constant 9.0-N force for a distance of 2.0 m; it turns the cylinder as...
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Part A A uniform disk has a mass of 2.3 kg and a radius of 0.24 m. The disk is mounted on frictionless bearings and is used as a turntable. The turntable is initially rotating at 20 rpm. A thin-walled hollow cylinder has the same mass and radius as the disk. It is released from rest, just above the turntable, and on the same vertical axis. The hollow cylinder slips on the turntable for 0.20 s until it acquires the...
A uniform cylinder of mass 3.0 kg and radius 10.0 cm
has a rope wrapped around its edge; a tension of 5.0 N
is
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constantly
increasing rate, starting from rest.
10DCH 1. A uniform cylinder of mass 3.0 kg and radius 10.0 cm has a rope wrapped around its edge; a tension of 5.0 N is exerted on the rope. The cylinder rotates at a constantly increasing rate, starting from rest....
M, a solid cylinder (M=1.39 kg, R=0.111 m)
pivots on a thin, fixed, frictionless bearing. A string wrapped
around the cylinder pulls downward with a force F which equals the
weight of a 0.570 kg mass, i.e., F = 5.592 N. Calculate the angular
acceleration of the cylinder. (the answer to this is 39.8 rad/s^2)
The cylinder is changed to one with the same mass and radius, but a
different moment of inertia. Starting from rest, the mass now moves...
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