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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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please show all work for question 4. 

1,a7
(3)
Consider an object with a large moment of inertia. A hanging
weight with mass m is attached to the object's radius R, creating a
tension T and applying a torque to the object. We want to consider
how the applied torque creates an angular acceleration on the
system, which we can measure. The figure at right shows the
hanging mass connected to the object. Use Newton's Laws and the
definitions of rotational position, velocity, acceleration, torques,
moments of inertia etc., to derive an expression for the moment of
inertia of the system. That is, find a function:
a
Isystem = f (R,m,g,a)
In addition to the variables already defined, g is the acceleration due
to gravity and a is the measured linear acceleration of the mass as
it drops. Show your work.
mg
(4)
"Linearize" your equation from (3) so that it takes the form:
1
1
(slope)m + intercept
The slope and intercept will be different combinations of Isystem, Rspool, and/or g, and in
our lab we will compare our measured results to these expected values.
Transcribed Image Text:1,a7 (3) Consider an object with a large moment of inertia. A hanging weight with mass m is attached to the object's radius R, creating a tension T and applying a torque to the object. We want to consider how the applied torque creates an angular acceleration on the system, which we can measure. The figure at right shows the hanging mass connected to the object. Use Newton's Laws and the definitions of rotational position, velocity, acceleration, torques, moments of inertia etc., to derive an expression for the moment of inertia of the system. That is, find a function: a Isystem = f (R,m,g,a) In addition to the variables already defined, g is the acceleration due to gravity and a is the measured linear acceleration of the mass as it drops. Show your work. mg (4) "Linearize" your equation from (3) so that it takes the form: 1 1 (slope)m + intercept The slope and intercept will be different combinations of Isystem, Rspool, and/or g, and in our lab we will compare our measured results to these expected values.
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