The article proposes a theory that electrical signals in neurons interact with chemical signals to construct neural functions and sensory interpretations. Neuroimaging shows that as electrical signals travel along axons, they expand upon reaching synapses, suggesting a deeper interaction with matter. These interactions occur in defined sets or clusters of neurons, shaping sensory experiences like smells or tastes. It posits that memory, emotions, and internal sensory regulation arise from the configuration of these electrical and chemical signals, creating a complex mechanism for cognitive functioning.
The theory suggests that electrical signals interact with chemical signals in meaningful configurations, shaping the interpretation of sensory experiences and cognition.
Neuroimaging reveals light-traveling patterns across axons, which expand at synapses, indicating the complex interactions between electrical and chemical signals within neural clusters.
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