The 4.00 kg block in the figure is attached to a vertical rod by means of 1.25 m two strings. When the system rotates about the axis of the rod, the strings are extended as shown in the diagram and the tension in the upper string is 80.0 N. a) What is the tension in the lower cord? b) How many revolutions per minute does the system make? c) Find the number of revolutions per minute at which the lower cord just goes slack. d) Explain what happens if the number of revolutions per minute is less than part c. 1.25 m 2.00 m

College Physics
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Chapter1: Units, Trigonometry. And Vectors
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The 4.00 kg block in the figure is attached to a vertical rod by means of
1.25 m
two strings. When the system rotates about the axis of the rod, the strings are
extended as shown in the diagram and the tension in the upper string is 80.0 N. a)
What is the tension in the lower cord? b) How many revolutions per minute does the
system make? c) Find the number of revolutions per minute at which the lower cord
just goes slack. d) Explain what happens if the number of revolutions per minute is
less than part c.
4.25 m
2.00 m
Transcribed Image Text:The 4.00 kg block in the figure is attached to a vertical rod by means of 1.25 m two strings. When the system rotates about the axis of the rod, the strings are extended as shown in the diagram and the tension in the upper string is 80.0 N. a) What is the tension in the lower cord? b) How many revolutions per minute does the system make? c) Find the number of revolutions per minute at which the lower cord just goes slack. d) Explain what happens if the number of revolutions per minute is less than part c. 4.25 m 2.00 m
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