One end of a light uniform rod is attached to a wall by africtionless hinge. The rod is held in a horizontal position by a wire thatruns from the other end of the rod to the wall. The wire has length 2.00 mand makes an angle of 30.0° with the rod. A block with mass m is suspendedby a light rope attached to the middle of the rod. The transversefundamental standing wave on the wire has frequency f. The mass m isvaried and for each value the frequency is measured. You plot f 2 versus mand find that your data lie close to a straight line with slope 20.4 kg -1 # s-2.What is the mass of the wire? Assume that the change in the length of thewire when the tension changes is small enough to neglect.
One end of a light uniform rod is attached to a wall by africtionless hinge. The rod is held in a horizontal position by a wire thatruns from the other end of the rod to the wall. The wire has length 2.00 mand makes an angle of 30.0° with the rod. A block with mass m is suspendedby a light rope attached to the middle of the rod. The transversefundamental standing wave on the wire has frequency f. The mass m isvaried and for each value the frequency is measured. You plot f 2 versus mand find that your data lie close to a straight line with slope 20.4 kg -1 # s-2.What is the mass of the wire? Assume that the change in the length of thewire when the tension changes is small enough to neglect.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Question
One end of a light uniform rod is attached to a wall by a
frictionless hinge. The rod is held in a horizontal position by a wire that
runs from the other end of the rod to the wall. The wire has length 2.00 m
and makes an angle of 30.0° with the rod. A block with mass m is suspended
by a light rope attached to the middle of the rod. The transverse
fundamental standing wave on the wire has frequency f. The mass m is
varied and for each value the frequency is measured. You plot f 2 versus m
and find that your data lie close to a straight line with slope 20.4 kg -1 # s-2.
What is the mass of the wire? Assume that the change in the length of the
wire when the tension changes is small enough to neglect.
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