How Much Work Is Needed to Accelerate a Baton to 5.6 rad/s?

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To accelerate a uniform baton of length 0.49 m and mass 0.46 kg from rest to an angular speed of 5.6 rad/s, the work required can be calculated using the change in kinetic energy. The moment of inertia (I) for the baton is determined to be 0.0092038 kg*m². The torque (T) can be calculated using either the final angular speed (wf) or the average angular speed, resulting in different torque values. The discussion emphasizes using the work-energy principle to find the work done without needing to calculate time. Ultimately, the work done is related to the change in kinetic energy throughout the acceleration process.
SoccaCrazy24
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here is the problem...

How much work must be done to accelerate a baton from rest to an angular speed of 5.6 rad/s about its center? Consider the baton to be a uniform rod of length 0.49 m and mass 0.46 kg.

wi=0 rad/s
wf=5.6 rad/s
Mrod=0.46kg
Lrod=0.49m
w average=2.8 rad/s

Well i know that W=T*(change in theta)

T=I*w

I=(1/12)M*L^2
I=0.0092038 (kg*m2)

so for w in the equation would i use wf? or average w?
*using wf
T=.05154 (N*m)
*using w average
T=.02577 (N*m)

so which T would I use in solving for Work...? and supposing that I find the change in theta...
 
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anyone got anythign to say to help me or no?
 
The Work is supposed to CHANGE the KE
during a process.
The starting KE = 0 , with w = 0
But the ending KE = ½ I w^2
(formula "looks like" KE for linear motion!)

Torque is not Iw , Torque is = I alpha
so is I times the CHANGE in w / Change in time.
Use Work & Energy approach to avoid having to calculate time.

The Work done is for the entire process.
The starting condition is at the start of the process,
the ending condition is at the end of the process.
 
Thread 'Variable mass system : water sprayed into a moving container'

Thread 'Variable mass system : water sprayed into a moving container'

Starting with the mass considerations #m(t)# is mass of water #M_{c}# mass of container and #M(t)# mass of total system $$M(t) = M_{C} + m(t)$$ $$\Rightarrow \frac{dM(t)}{dt} = \frac{dm(t)}{dt}$$ $$P_i = Mv + u \, dm$$ $$P_f = (M + dm)(v + dv)$$ $$\Delta P = M \, dv + (v - u) \, dm$$ $$F = \frac{dP}{dt} = M \frac{dv}{dt} + (v - u) \frac{dm}{dt}$$ $$F = u \frac{dm}{dt} = \rho A u^2$$ from conservation of momentum , the cannon recoils with the same force which it applies. $$\quad \frac{dm}{dt}...
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