What is the Time to Accelerate a Rotating Disc with Frictional Drag Torque?

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The discussion revolves around calculating the time required to accelerate a rotating disc under the influence of a constant power input and frictional drag torque. The key equation derived is t = -I/2γ ln(1 - ω^2/ω0^2), where ω0 represents the steady-state angular velocity. The participant attempts to formulate a differential equation relating torque to angular momentum, recognizing that torque equals the rate of change of angular momentum. They also clarify how to express the force in terms of power, concluding that F = P/ω. The conversation highlights the relationship between power, torque, and angular velocity in the context of rotational dynamics.
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Homework Statement



A rotating disc is driven by a motor that generates constant power P , and expe-
riences a frictional drag torque
γ ω, where ω is the angular velocity of the disc and γ
is a constant.

If the moment of inertia of the disc is I , show that the time to accelerate
the disc from rest to angular velocity ω is

t= -I/2γ ln (1-w^2/wo^2)

where ω0 is the value of ω in the steady state.

Homework Equations





The Attempt at a Solution



Ok so I am trying to solve this by writing out a differential equation..Torque = rate of change of angular momentum..

Now I know J = Iw so i can write an expression for rate of change of angular momentum..Just having trouble working out what the net torque is..

it is of the form F - γω..but how can i write an expression for F given the power is constant P?

I know the integral of Power dt = the integral of F dw..

Thanks!
 
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Sorry - see it now..ts just P/w right?
 
i.e F = P/w
 

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