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Mathematics of Interaction Between Blood and Electromagnetic Fields

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Abul Rashid · 1973

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Mathematical modeling shows blood circulation creates the primary pathway for electromagnetic fields to affect human health systemically.

Plain English Summary

Summary written for general audiences

This 1973 theoretical study developed mathematical equations to describe how electromagnetic fields interact with human blood. The research proposed that blood's electrical conductivity and movement through the body creates the primary mechanism for EMF effects on human health. The work presented magnetohydrodynamic formulas relating field strength to blood velocity, density, pressure and temperature changes.

Why This Matters

This pioneering theoretical work from 1973 represents one of the earliest attempts to mathematically model how EMF exposure affects the human body at a fundamental level. What makes this study significant is its focus on blood as the primary interaction medium - a prescient insight given that blood contains iron and moves continuously through our bodies, making it particularly susceptible to electromagnetic influences. The magnetohydrodynamic equations presented here laid groundwork for understanding why EMF exposure can trigger systemic health effects rather than just localized tissue heating. While this was purely theoretical modeling without experimental validation, the mathematical framework helps explain why people experience diverse symptoms from EMF exposure - from cardiovascular effects to neurological symptoms - since blood circulation connects every organ system. The reality is that our bodies are far more electrically active and EMF-sensitive than the thermal-only models used by current safety standards acknowledge.

Exposure Information

Specific exposure levels were not quantified in this study.

Cite This Study
Abul Rashid (1973). Mathematics of Interaction Between Blood and Electromagnetic Fields.
Show BibTeX
@article{mathematics_of_interaction_between_blood_and_electromagnetic_fields_g7452,
  author = {Abul Rashid},
  title = {Mathematics of Interaction Between Blood and Electromagnetic Fields},
  year = {1973},
  
  
}

Quick Questions About This Study

The study developed magnetohydrodynamic equations showing that EMF exposure changes blood velocity, density, pressure and temperature based on field intensity. Blood's electrical conductivity makes it highly responsive to electromagnetic influences as it circulates throughout the body.
Blood contains iron and moves continuously through every organ system, making it particularly susceptible to electromagnetic influences. The mathematical models show how field exposure can alter blood properties, potentially affecting circulation and oxygen delivery throughout the body.
The equations demonstrate that electromagnetic field exposure can alter blood velocity, density, pressure and temperature. These changes occur because blood acts as an electrically conductive fluid that responds to both electric and magnetic field components.
Yes, the magnetohydrodynamic equations presented relate specific electric and magnetic field intensities to measurable changes in blood flow parameters. This mathematical framework helps predict how different EMF exposures might affect cardiovascular function and circulation patterns.
This was among the first attempts to mathematically model systemic EMF health effects through blood interaction rather than just tissue heating. The equations provided a theoretical foundation for understanding why EMF exposure can cause diverse symptoms throughout the body.