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How much time does it take a power drill accelerating at 64.3 rad/s2 to achieve 1500. rotations per minute(RPM)?
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How much time does it take a power drill accelerating at 64.3 rad/s2 to achieve 1500. rotations per minute(RPM)?

User Rongeegee
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1 Answer

4 votes
First of all, we need to convert the final angular velocity from rpm (revolutions per minute) to rad/s. Keeping in mind that

1 rev = 2\pi rad

1 min = 60 s
We have

\omega _f = 1500 (rev)/(min) \cdot (2 \pi rad/rev)/(60 s/m)=0.157 rad/s

the angular acceleration is given by

\alpha = (\omega _f - \omega _i)/(\Delta t)
where
\omega _i is the initial velocity (in this case, zero), and
\Delta t is the time needed to accelerate the drill to its final velocity. Using
\alpha = 64.3 rad/s^2, we can calculate
\Delta t:

\Delta t = (\omega _f)/(\alpha)= (0.157 rad/s)/(64.3 rad/s^2)=2.44 s
User Arsalan Habib
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