- #1
omar alaa
- 20
- 0
can we convert the linear motion into rotational motion in cars using a fly wheel under the car ?
omar alaa said:can we convert the linear motion into rotational motion in cars using a fly wheel under the car ?
omar alaa said:ok but will it replace the brakers ,its impossible as how would they convert the great linear kinetic energy of the car into rotational energy in very short time ? would the fly wheels replace fuel and brakes ?
omar alaa said:ok but will it replace the brakes , its impossible as how would they convert the great linear kinetic energy of the car into rotational energy in very short time ? would the fly wheels replace fuel and brakes ?
Flywheels store rotational energy, which can be used to power the car's engine and reduce the amount of fuel needed to operate the vehicle. This results in improved efficiency and fuel economy.
Flywheels can provide additional torque to the car's engine, resulting in improved acceleration and overall performance. They can also help to stabilize the car's speed and reduce engine strain during gear shifts.
One limitation is the added weight and size of the flywheel, which can affect the car's handling and maneuverability. Additionally, flywheels can only store a limited amount of energy, so they may not be as effective for longer trips or frequent stops and starts.
The cost of implementing flywheel technology in cars can vary depending on the specific design and materials used. However, in general, it is relatively more expensive compared to other methods such as hybrid or electric vehicles.
Proper engineering and design are essential to ensure the safe use of flywheels in cars. One potential safety concern is the risk of the flywheel disintegrating in the event of a crash or failure. However, with proper precautions and testing, this risk can be minimized.