application 2

  When the person was infected  corona virus the patient having the symptom of high temperature. During a fever, the body is maintaining a temperature of 101°F, it is actually operating within a negative feedback loop.The hypothalamus, a part of the brain, acts as the body’s thermostat and detects the elevated temperature.
Chemical signals are released to the brain, alerting it to the increased temperature.In response, the hypothalamus triggers various physiological mechanisms to reduce the body temperature and restore it to the normal range.These efforts include sweating and vasodilation (expansion of blood vessels), which aim to bring the temperature back to normal.The normal body temperature typically hovers around 98.6°F (37.0°C). During a fever, a new set point temporarily shifts upward (from 98.6°F to 101°F) due to infection.The negative feedback loop then works to bring the elevated temperature back toward this new set point. Maintaining a temperature of 101°F during a fever example of rheostasis, where the body adjusts its set point to respond to specific conditions.The negative feedback loop ensures that deviations from this adjusted set point are corrected, promoting overall health and stability.

The person is having fever 101'F is a negative feedback loop because because it involves a fever caused by a coronavirus infection, leading to an elevated body temperature. Despite the increase from the normal 98.6°F to 101°F during the fever, the body’s defense mechanism maintains the temperature at 101°F. This persistence in temperature regulation even in the presence of infection and high temperatures confirms that the process operates as a negative feedback loop. The normal temperature set at 98.6'F .The body adjusts a new set point 101'F  to respond to specific conditions.The body's ability to adjust its set point in response to specific conditions is demonstrated by maintaining a temperature of 101°F during a fever this is the exemplifies of rheostasis.The body adjusts its set point in response to specific conditions, exemplifying rheostasis. Ultimately, the negative feedback loop ensures stability by shifting the temperature to a new set point.

The person is having fever 101'F is a negative feedback loop because it involves a fever caused by a coronavirus infection, leading to an elevated body temperature. Despite the temperature increase from the normal 98.6°F to 101°F during the fever, the body’s defense mechanism maintains the temperature at 101°F. This persistence in temperature regulation even in the presence of infection and high temperatures confirms that the process operates as a negative feedback loop.The normal temperature set at 98.6'F .The body adjusts a new set point 101'F  to respond to specific conditions.The body's ability to adjust its set point in response to specific conditions is demonstrated by maintaining a temperature of 101°F during a fever this is the exemplifies of rheostasis.In order to maintain the stability of the patient's condition, the negative feedback loop ensures that the temperature shift to a new set point.

 

 

 Our normal body temperature typically hovers around 98.6°F (37.0°C). In the case of fever, a new set point temporarily shifts upward (from 98.6°F to 101°F) due to infection.

 

When your body is maintaining a temperature of 101°F during a fever, it is operating within a negative feedback loop

 

 

 When the person was infected  corona virus the patient having the symptom of high temperature. During a fever, the body is maintaining a temperature of 101°F, it is actually operating within a negative feedback loop.The hypothalamus (a part of the brain) acts as the body’s thermostat and detects this elevated temperature.When the temperature elevated releasing chemical signal reported to the brain causing the body to generate more heat. In response, the hypothalamus triggers various physiological mechanisms to reduce the body temperature and restore back to the normal range. During a fever, body efforts to reduce the elevated temperature (such as sweating and vasodilation) demonstrate a negative feedback loop, because this aim to restore the normal body temperature. Conclusion the normal body temperature typically hovers around 98.6°F (37.0°C). In the case of fever, a new set point temporarily shifts upward (from 98.6°F to 101°F) due to infection.The negative feedback loop then works to bring the elevated temperature back toward this new set point.Maintaining a temperature of 101°F during a fever is example of  rheostasis, where the body adjusts its set point to respond to specific conditions. The negative feedback loop ensures that deviations from this adjusted set point are corrected, promoting overall health and stability