A record player turntable initially rotating at 3313 rev/min is braked to a stop at a constant rotational acceleration. The turntable has a rotational inertia of 0.031kg? m2. When it is switched off, it slows down to 75% of its initial rotational speed in 4.0 s.

A. How long does it take to come to rest?

B. How much work has to be done on the turntable to bring it to rest?

a. 16 s b. - 1.866 kJ

Explanation:

a. Since the initial rotational speed ω₀ = 3313 rev/min = 3313/60 * 2π rad/s = 346.94 rad/s. Its rotational speed becomes ω₁ = 0.75ω₀ in time t = 4 s.

We find it rotational acceleration using α = (ω₁ - ω₀) / t = (0.75ω₀ - ω₀) / t = ω₀ (0.75 - 1) / t = - 0.25ω₀/t = (-0.25 * 346.94 rad/s) / 4 s = - 21.68 rad/s².

Since the turntable stops at ω = 0, the time it takes to stop is gotten from

ω = ω₀ + αt and t = (ω - ω₀) / α = (0 - 346.94 rad/s) / -21.68 rad/s² = (-346.94/-21.68) s = 16 s.

So it takes the turntable 16 s to stop.

b. The workdone by the turntable to stop W equals its rotational kinetic energy change.

So, W = 1/2Iω² - 1/2Iω₀² = 1/2 * 0.031 kgm² * 0² - 1/2 * 0.031 kgm² * (346.94 rad/s) ² = 0 - 1865.7 J = - 1865.7 J = - 1.8657 kJ ≅ - 1.866 kJ