The concept of a flywheel for electric or other battery-powered motors relies on the concept of an electrostatic energy carrier, which in turn depends on the shape of the material and other physical properties of the motor. For example, flywheels are made from high density plastic or graphite, which also have relatively high surface area; an electric motor can only take advantage of such a motor if the material is made of a very low surface area, a material that is very expensive to produce. In general, the larger the surface area, the less free energy potential there is to the motor.
Flywheels don’t generate a lot of free energy because as the materials they are made of are relatively low surface area, they don’t allow a significant free energy to be put into the motor. But flywheels do show energy production potential. Here are some examples:
Flywheels have been studied for a number of years for other applications. For instance, the work of D.R.S. (1974) in “Carbon based flywheels for electric vehicles” (R.L.C.E.I., 1973) (link) showed that the materials might be used for air- and sea-craft propellers and motors.
Another type of electric drive has been studied for the energy storage of electronic devices like computer chips, radios and other electronic components which use an electrically insulating material for an insulating and electronic inscribing surface which are generally made of ferrite or other metal or some composite material.
The surface materials on which these devices are assembled have a low surface area and high cost (e.g. steel; zinc-carbon). These materials are then used to make flywheels where the surface area is quite low and high surface area and high cost, and they get a lot of free energy.
The flywheel concept for cars has been studied for many years on cars that use flywheels to store energy. This work was done by R.A.R. (1927; 1928) as part of his research on the kinetic energy of friction and applied to flywheel-based electric motors.
Another type of flywheel has been studied for the storage of electronic waste such as electrical current in a flywheel. A flywheel is a material of very high and very low surface area which stores energy; in the past, such materials have generally been made of a very high surface area but low surface area and high cost materials.
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