| Table F1 - The utilization of Oscillatory Chamber | ||||
| Nr. | The device utilizing the Oscillatory Chamber | Kind of energy | Principles of operation | |
| Supplied | Obtaines | |||
| 1. | Electromagnet | Electric current | Magnetic field | Electric energy supplied to the chamber will be transformed into a magnetic field. |
| 2. | Heater | Electric current | Heat | Hot gas from the chamber will be circulated through a radiator |
| 3. | Electric motor | Electric current | Mechanical motion | Waves of controlles magnetic fields produced by a set of chambers will cause a mechanical motion of conductive elements. |
| 4. | Transformer | Electric current | Electric current of different parameters | Two chambers of different working parameters exchange energy through their magnetic fields (utilizing a phase shift in their pulsations). |
| 5. | Combustion engine | Heat | Mechanical motion | Heating of the gas in the chamber provides energy which is then consumed in the process of producing a mechanical motion. |
| 6. | Electricity generator | Heat | Electricity | Gas filling the chamber circulates through a heat exchanger. Energy supplied in the form og heat is converted into an electrical charge and then withdraw as an electric current. |
| 7. | Generator | Mechanical motion | Electricity | Moving one chamber towards another changes the interactions of their magnetic fields, providing them with energy which can be withdraw. |