If the human eye were capable of detecting the entire range of electromagnetic frequencies within a safe threshold, it would indeed present some challenges and considerations regarding the regulation of the frequencies we perceive simultaneously. Let's explore a few factors to understand this better:
Overwhelming Sensory Input: The electromagnetic spectrum is incredibly vast, covering a wide range of frequencies from radio waves to gamma rays. If the human eye could detect this entire spectrum, it would result in an overwhelming amount of sensory input. The brain might struggle to process and make sense of such an immense influx of information.
Limited Attention and Cognitive Load: Our cognitive abilities and attention span have limitations. If we were constantly bombarded with the entire electromagnetic spectrum, it would be challenging to focus on specific wavelengths or frequencies of interest. The human brain would need to prioritize and filter the incoming information to prevent cognitive overload.
Interference and Conflicting Signals: With access to the entire electromagnetic spectrum, there would be a higher probability of interference and conflicting signals. Different frequencies could potentially overlap and interfere with each other, leading to a distorted perception of the environment. This interference might make it difficult to discern specific frequencies or extract useful information from the sensory input.
Biological Constraints and Adaptation: Even if the eye were capable of detecting a broader range of electromagnetic frequencies, it's essential to consider the biological constraints. Our visual system has evolved to detect a specific range of frequencies corresponding to visible light. Adapting the eye to perceive a significantly broader range might require significant changes in the eye's structure, cellular components, and neural processing. Such modifications would likely have consequences and limitations that need to be addressed.
Given these challenges, it is plausible that some form of regulation or filtering would be necessary to manage the sensory input effectively. The human visual system already filters out certain frequencies, such as those outside the visible spectrum. If we were to expand our range, it would be reasonable to assume that our perception would need to adapt or prioritize specific frequencies based on relevance, personal preference, or task at hand.
It's worth noting that this hypothetical scenario is currently beyond the capabilities of human biology, and designing such an enhanced visual system would involve intricate changes at the biological, physiological, and neurological levels.