Formula of Maxwell Boltzmann
\begin{array}{l}f(E)=\frac{1}{Ae^{\frac{E}{kT}}}\end{array}
Where,
f is the energy distribution
E is the energy of the system
T is the absolute temperature in Kelvin
Solved Example
Example 1:
Calculate the Maxwell Boltzmann for a blackbody whose temperature is 5000000 K. Also, determine if the distribution is larger or shorter.
Solution:
The Maxwell Boltzmann formula is:
\begin{array}{l}f(E)=\frac{1}{Ae^{\frac{E}{kT}}}\end{array}
Substituting the values we get,
f = 0.9998
Also, there is a rise in the temperature therefore the distribution is larger.