In this experiment, we measured the linear mass density of the string, μ. We could calculate the mass of the string using m= μL. Then how could you experimentally determine the mass of the string using the 2 slope of the Tv. (- plot? a. It would be equal to the slope divided by 2L Ob. It would be equal to the slope divided by 4L It would be equal to the slope of the T v. of vibration) Od. It would be equal to the slope of the plot divided by L, the length of the string plot (where T is the tension and f is the frequency
In this experiment, we measured the linear mass density of the string, μ. We could calculate the mass of the string using m= μL. Then how could you experimentally determine the mass of the string using the 2 slope of the Tv. (- plot? a. It would be equal to the slope divided by 2L Ob. It would be equal to the slope divided by 4L It would be equal to the slope of the T v. of vibration) Od. It would be equal to the slope of the plot divided by L, the length of the string plot (where T is the tension and f is the frequency
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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Transcribed Image Text:In this experiment, we measured the linear mass density of the string, μ. We could calculate the mass of
the string using m=μL. Then how could you experimentally determine the mass of the string using the
2
slope of the T v. (-
plot?
It would be equal to the slope divided by 2L
Ob. It would be equal to the slope divided by 4L
O C.
$
It would be equal to the slope of the T v. (-
plot (where T is the tension and f is the frequency
of vibration)
d. It would be equal to the slope of the plot divided by L, the length of the string
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