IU MU Transducer

Biological systems are low energy systems and therefore if we are to explore low energy approaches to understand biological animate systems we need gentle approaches to explore and investigate processes that operate biologically. The use of the IU MU Transducer provides a feedback control technology to investigate subatomic systems operating in the dynamic subatomic fields.

Learning about inversion and the SUSY inversion modelling approach is not very intuitive because we are taught about the external physical world through measurement but not an internal biological world associated with the hydrogen atom and how it provides a visual internal holographic s-orbital boundary layered system.

Here is show that a coherent laser can modulate the feedback in the cyclic light mode of the IU MU Transducer. The 45 degree angle of the mirror provides a point of inverted reflection of the horizonal screen. A CRT allowing magnetic fields to be visualized and explored using light loop technology of the IU MU Transducer.

Magnetic feedback

Biological systems use feedback loops. Here we create a cyclic feedback loop using the IU MU Transducer that enables the investigation of temporal cyclic systems operating as an expression of a regulatory element where internal recursive feedback can be investigated using macroscopic interactions. Concepts are easier to understand if you can make them macroscopic and using light as a lens for cyclic loops as observed here provides a feedback mechanism linked to expression within a closed loop.

Magnetic field investigations using a CRT. Looking at magnetic field lines. Biological systems are using orbital systems in molecules via an interaction with the fields in the local gravitational well.

IU MU Transducers exploration of fluidic light field in a feedback rotational setting.

Consciousness and the vision within. Making a new framework means letting go of the old ideas to see if the new ideas provide new information on what cannot be seen using measurements.