Source: REA’s Problem Solvers Physics by Research and Education Association.

Delivery trucks which operate by making use of the energy stored in a rotating flywheel have been in use for some time in Germany. The trucks are “charged up” before leaving by using an electric motor to get the flywheel up to its top speed of 6000 revolutions per minute. If one such flywheel is a solid homogeneous cylinder of weight 508 kg and diameter 1.8 m, how long can the truck operate before returning to its base for “recharging”, if its average power requirement is 10 HP?

Analyze the problem:

A disk (flywheel) can rotate with maximum angular speed of 6000 revolutions per minute which can provide kinetic energy that allow a truck to move. When there is an average power needed that allow the truck to operate, the truck will be in motion for limited time as the energy eventually will be reduced with time and that will reduce the power (rate of energy consumed per unit time).

What are the given information?

- Maximum angular speed of the flywheel, ω=6000 revolutions/minute
- Flywheel shape is cylinder
- Flywheel mass, M = 508 kg
- Flywheel diameter, D= 1.8 m
- Average power needed for the truck , P = 10 horse power

What are the needed information?

- The average time the truck can operate

SOLUTION:

### Like this:

Like Loading...

## Author: physicskublog

I teach physics in Kuwait University. I thought of sharing the solutions of selected problems I find in the different Physics 1 and Physics 2 textbooks. I also solve in detail some problems that were given in past exams of Physics 1 and Physics 2. The solutions can help students (and physics enthusiastic) to practice and understand physical concepts better.
View all posts by physicskublog