The graph shown in the figure (Figure 1) closely approximates the displacement of a tuning fork as a function of time t as it is playing a single note. inat is the amplitude of this fork's motion? A = Submit Part B T= What is the period of this fork's motion? Submit |Π|| ΑΣΦ Part C Request Answer ΠΑΣΦ Request Answer What is the frequency of this fork's motion? f = 426 ΙΠΠΑΣΦ (1228) ? ? ? mm Ins Hz

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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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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The graph shown in the figure (Figure 1) closely approximates the displacement at of a
tuning fork as a function of time t as it is playing a single note.
Figure
x(mm)
0.4
0.2
-0.2
-0.4
AMA
2
(ms)
1 of 1
What is the amplitude of this fork's motion?
A =
Submit
Part B
T =
What is the period of this fork's motion?
Submit
Part C
| ΑΣΦ
Request Answer
| ΑΣΦ
What is the frequency of this fork's motion?
f = 426
Part D
Request Answer
ΠΑΣΦ
Submit Previous Answers Request Answer
w = 2π
(224)
What is the angular frequency of this fork's motion?
ID ΑΣΦ
?
* Incorrect; Try Again; 4 attempts remaining
?
?
?
mm
mns
Hz
rad/s
Pearson
Transcribed Image Text:The graph shown in the figure (Figure 1) closely approximates the displacement at of a tuning fork as a function of time t as it is playing a single note. Figure x(mm) 0.4 0.2 -0.2 -0.4 AMA 2 (ms) 1 of 1 What is the amplitude of this fork's motion? A = Submit Part B T = What is the period of this fork's motion? Submit Part C | ΑΣΦ Request Answer | ΑΣΦ What is the frequency of this fork's motion? f = 426 Part D Request Answer ΠΑΣΦ Submit Previous Answers Request Answer w = 2π (224) What is the angular frequency of this fork's motion? ID ΑΣΦ ? * Incorrect; Try Again; 4 attempts remaining ? ? ? mm mns Hz rad/s Pearson
In order to study the long-term effects of
weightlessness, astronauts in space must be
weighed (or at least "massed"). One way in which
this is done is to seat them in a chair of known
mass attached to a spring of known force constant
and measure the period of the oscillations of this
system. The 35.6 kg chair alone oscillates with a
period of 1.30 s, and the period with the astronaut
sitting in the chair is 2.23 s
Part A
Find the force constant of the spring.
k=
Submit
Part B
Templates Symbols undo redo Teset keyboard shortcuts Help
21
m =
Find the mass of the astronaut.
Request Answer
Templates Symbols undo redo
Submit
Request Answer
Reset
keyboard shortcuts help
N/m
kg
Transcribed Image Text:In order to study the long-term effects of weightlessness, astronauts in space must be weighed (or at least "massed"). One way in which this is done is to seat them in a chair of known mass attached to a spring of known force constant and measure the period of the oscillations of this system. The 35.6 kg chair alone oscillates with a period of 1.30 s, and the period with the astronaut sitting in the chair is 2.23 s Part A Find the force constant of the spring. k= Submit Part B Templates Symbols undo redo Teset keyboard shortcuts Help 21 m = Find the mass of the astronaut. Request Answer Templates Symbols undo redo Submit Request Answer Reset keyboard shortcuts help N/m kg
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