Question

An average human body temperature is \[98.6^\circ F\]. What is the average human body temperature in Kelvins?

Answer 1

Hint: We need to know that temperature is one of the important parameters in chemistry. There are three units for measuring the temperature. There are degrees Celsius, kelvin and Fahrenheit. Exothermic and endothermic reactions are based on temperature. If the temperature of the reaction decreases, that reaction is called an endothermic reaction. If the temperature of the reaction increases, that reaction is called an exothermic reaction. The measuring purpose of the temperature so many scales are available. There are degrees Celsius scale, Kelvin scale and Fahrenheit scale. In general, the Celsius scale is used for measuring the human body temperature. Generally Fahrenheit scale is used for measuring the environment temperature in the world. In general Kelvin scale is used for measuring the study of chemical reaction and rate of the chemical reaction in temperature by using thermodynamics.
Formula used:
The formula for conversion of Fahrenheit to kelvins.
\[Temperature In Kelvin = \left( {TemperatureinFahrenheit - 32} \right) \times \dfrac{5}{9} + 273\]

Complete answer:
An average human body temperature is\[98.6^\circ F\].
The formula for conversion of Fahrenheit to kelvins.
\[Temperature In Kelvin = \left( {TemperatureinFahrenheit - 32} \right) \times \dfrac{5}{9} + 273\]
The average human body temperature in Kelvins is calculated as,
\[Temperature In Kelvin = \left( {98.6 - 32} \right) \times \dfrac{5}{9} + 273\]
\[ = \left( {66.6} \right) \times \dfrac{5}{9} + 273\]
\[ = 37 + 273 = 310\]
The average human body temperature in Kelvins is \[310K\].
According to the above discussion, we conclude an average human body temperature is \[98.6^\circ F\]. The average human body temperature in Kelvins is \[310K\].

Note:
We need to know that the Kraft temperature is also used in phase change of surfactant. We can predict Below the Kraft temperature which surfactant remains in solid form even in solvent. The cloud point of temperature and Kraft temperature are also visually similar. Because, due to the flocculation, surfactants in the solution become cloudy or opaque in nature. In general, surfactants are made up of a long chain of hydrocarbon atoms and a polar head group. Increasing the length of the chain of hydrocarbon atoms the Kraft temperature also increases. Because the Kraft temperature also improves or increases van der Waals force.