What is the Method for Measuring Moment of Inertia in a Yo-Yo Prototype?

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Homework Help Overview

The discussion revolves around measuring the moment of inertia of a yo-yo prototype, specifically a wooden disk with a string wound around its rim. The original poster describes an experimental setup involving a falling mass and seeks to determine the time it takes for the mass to fall a certain distance, as well as the appropriate mass to achieve a desired fall time.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss starting points for the problem, including the use of free-body diagrams and Newton's laws to establish relationships between variables such as height and time.

Discussion Status

The conversation is in its early stages, with the original poster expressing uncertainty about how to begin. Some participants have offered guidance on initial steps, suggesting the use of diagrams and fundamental physics principles to approach the problem.

Contextual Notes

The original poster mentions constraints regarding the accuracy of timing measurements and the need for reasonable estimates of parameters for the experiment.

F.Workman
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Homework Statement


In testing a design for a yo-yo, an engineer begins by constructing a simple prototype--a string wound about the rim of a wooden disk. She puts an axle riding on nearly frictionless ball bearings through the axis of the wooden disk and fixes the ends of the axle. In order to measure the moment of inertia of the disk, she attaches a weight of mass m to the string and measures how long it takes to fall a given distance.

a) assuming the moment of inertia of the disk is given by I, and the radius of the disk is R, find the time for the mass to fall a distance h, starting from rest.

b) She doesn't have a very accurate stopwatch, but she still wants to get a measurement good to a few percent. She decides a fall time of 2 seconds would work. How big a mass should she use? Imagine you were setting up this experiment and make reasonable estimates of the parameters you need.

I = 0.5MR2

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Hi F.Workman ! Welcome to PF! :wink:

Show us what you've tried, and where you're stuck, and then we'll know how to help! :smile:
 
Um, where do I start? ^^
 
Start by drawing free-body diagrams on the disk and the falling mass. Write out Newton's second law for each (Newton's rotational second law for the disk), and try to use them to find a relationship between h and t.
 

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