Question

A solid disk with a radius of `3 m` and mass of `9 kg` is rotating on a frictionless surface. If `120 W` of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at `8 Hz`?

Answer 1

`tau=(120" W")/(16pi)~~2.39N*m`

Explanation:

We are told we have a rotating spinning coin.

Step 1. Gather the information that you know and need

• Mass of disk: `"mass"=m=9" kg"`
• Radius of disk: `"radius"=r=3" m"`
• Power applied to increase rotation: `P=120" W"`
• Frequency: `f=8" Hz"`
• Torque required: ??

Step 2. Determine the formula using the above givens

• `P` is the power applied, `P=tau omega`
• Therefore, the formula for torque is `tau=P"/"omega`
• Angular speed, `omega=f*2pi=8*2pi=16pi`

Step 3. Plug your answer into the formula for torque

`tau=(120" W")/(16pi)~~2.39N*m`