2. A string with a length of 2.00 meters is configured as shown below. The linear mass density of the string is 20.0 grams/meter. The suspended mass is initially at 5.00 kg. -2 meters- Oscillating Rod a. What frequency should the oscillating rod vibrate at in order to produce a n=7 standing wave on the string? 86.62 fz = 7 7 2 (2m) Suspended mass (49N) 0.02 kg/m b. If the mass attached varies with time and obeys the equation m(t) = 0.0012 + 5.00, at what time will the next standing wave be produced (state it's harmonic number as well).

2. A string with a length of 2.00 meters is configured as shown below. The linear mass density of the string is 20.0 grams/meter. The suspended mass is initially at 5.00 kg. -2 meters- Oscillating Rod a. What frequency should the oscillating rod vibrate at in order to produce a n=7 standing wave on the string? 86.62 fz = 7 7 2 (2m) Suspended mass (49N) 0.02 kg/m b. If the mass attached varies with time and obeys the equation m(t) = 0.0012 + 5.00, at what time will the next standing wave be produced (state it's harmonic number as well).

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Concept explainers

Interference of sound

Seiche

A seiche is an oscillating standing wave in a body of water. The term seiche pronounced saysh) can be understood by the sloshing of water back and forth in a swimming pool. The same phenomenon happens on a much larger scale in vast bodies of water including bays and lakes. A seizure can happen in any enclosed or semi-enclosed body of water.

Question

Solve part b

0.02 kg/m
2. A string with a length of 2.00 meters is configured as shown below. The linear mass density of
the string is 20.0 grams/meter. The suspended mass is initially at 5.00 kg.
-2 meters-
Oscillating
Rod
a. What frequency should the oscillating rod vibrate at in order to produce a n=7 standing wave
on the string?
(49 N)
0.02kg/m
다
fz=
=
Suspended mass
7
2 (2m)
=
86.62 Hz
b. If the mass attached varies with time and obeys the equation m(t) = 0.0012 + 5.00, at what
time will the next standing wave be produced (state it's harmonic number as well).
***

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