Using gradient values of a graph to determine angular acceleration

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Homework Help Overview

The discussion revolves around determining angular acceleration from a graph of voltage versus time, specifically using the relationship between angular velocity and voltage derived from an experimental setup involving a disc and a tachometer.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants explore the definition of angular acceleration and its relationship to angular velocity. Questions arise about how to differentiate the given equation and how to apply the gradient of the graph to find angular acceleration.

Discussion Status

Participants are actively engaging with the concepts, with some guidance provided on differentiating the equation for angular velocity. There is an ongoing exploration of how to correctly interpret the gradient of the graph in relation to angular acceleration.

Contextual Notes

There is uncertainty regarding the appropriate value of voltage to use in calculations, as well as confusion about the differentiation process and its implications for the relationship between voltage and angular acceleration.

vodkasoup
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Homework Statement



I recently conducted an experiment to determine the moment of inertia of a disc using a tachometer attached to a disc marked with reflected strips, a weight, and an oscilloscope. The resulting oscilloscope data was plugged into fitplot to generate a graph of voltage (Y-axis) against time (X-axis). I am asked to convert the gradient of the graph to angular acceleration by using the equation ω=1.4V, where ω is the angular velocity and V is voltage.

Homework Equations



ω=1.4V

The Attempt at a Solution



I have no idea how to approach this. I know that the gradient of the graph is the change in voltage over the change in time, dV/dT , but I don't know how to proceed from here.


Many thanks for any help.
 
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How is angular acceleration defined in terms of angular velocity ω?
 
Angular acceleration is the rate of change of angular velocity, right? But I'm still not sure how that relates to the gradient of my graph of changing voltage over time.
 
vodkasoup said:
Angular acceleration is the rate of change of angular velocity, right? But I'm still not sure how that relates to the gradient of my graph of changing voltage over time.

Take your equation for ω and differentiate it with respect to time.

You do know that rate of change of angular velocity means "rate of change of angular velocity with respect to time," correct?

Chet
 
Thanks Chet. How do I derive voltage with respect to time? If ω=1.4V and I derive with respect to time, I just end up with 0. Though obviously I'm not doing it correctly.

Also, what is the value of 'V' that I am supposed to use? The gradient of my graph?
 
vodkasoup said:
Thanks Chet. How do I derive voltage with respect to time? If ω=1.4V and I derive with respect to time, I just end up with 0. Though obviously I'm not doing it correctly.

Also, what is the value of 'V' that I am supposed to use? The gradient of my graph?

\frac{d\omega}{dT}=1.4\frac{dV}{dT}

The gradient on your graph is dV/dT. So the rate of change of ω with respect to time is 1.4 times the gradient on your graph. Make sure everything is in the correct units.
 

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