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Understanding fever in the context of Thermodynamics and Heat and Mass Transfer


Author - Dr. S.R. Shankapal

Date of upload -  23 September 2024

When the human body experiences a fever, its temperature rises due to a combination of metabolic, immunological, and thermodynamic factors. Let's explore this phenomenon by applying the laws of thermodynamics and the principles of heat transfer (conduction, convection, radiation), along with mass transfer principles.

1. Thermodynamics and Fever

Fever occurs when the body’s thermoregulatory set-point, controlled by the hypothalamus, is increased. This adjustment is often triggered by the release of pyrogens (substances produced by the immune system in response to infection or inflammation). Here's how the thermodynamic laws play a role:

2. Principles of Heat Transfer in Fever

3. Mass Transfer and Sweating

As the body temperature rises, the body attempts to regulate and cool down through mass transfer in the form of sweating:

4. Fever and Homeostasis

Fever is essentially a controlled increase in body temperature. The hypothalamus adjusts the body’s set-point in response to infection, and the body’s thermoregulatory processes (conduction, convection, radiation, and sweating) adjust to maintain this new, higher temperature. Once the infection is controlled, the hypothalamus lowers the set-point, and the heat transfer processes intensify to bring the temperature back to normal.

Summary

Understanding fever in the context of thermodynamics and heat transfer provides a deeper insight into how the body regulates temperature during infection while balancing energy, heat generation, and dissipation.

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