Question

A cylinder has inner and outer radii of `13 cm` and `15 cm`, respectively, and a mass of `6 kg`. If the cylinder's frequency of counterclockwise rotation about its center changes from `9 Hz` to `3 Hz`, by how much does its angular momentum change?

Answer 1

The change in angular momentum is `=2.23kgm^2s^-1`

Explanation:

The angular momentum is `L=Iomega`

where `I` is the moment of inertia

and `omega` is the angular velocity

The mass of the cylinder is `m=6kg`

The radii of the cylinder are `r_1=0.13m` and `r_2=0.15m`

For the cylinder, the moment of inertia is `I=m((r_1^2+r_2^2))/2`

So, `I=6*((0.13^2+0.15^2))/2=0.1182kgm^2`

The change in angular velocity is

`Delta omega=Deltaf*2pi=(9-6) xx2pi=6pirads^-1`

The change in angular momentum is

`DeltaL=IDelta omega=0.1182xx6pi=2.23kgm^2s^-1`