where k < sub > B </ sub > is Boltzmann's constant, T is the temperature, R is the resistance, and is the bandwidth of the frequency.

where k < sub > B </ sub > is Boltzmann's constant 1. 38066 × 10 < sup >− 23 </ sup > J K < sup >− 1 </ sup > and Ω is the number of microstates corresponding to the observed thermodynamic macrostate.

where k < sub > B </ sub > is Boltzmann's constant and T is the temperature.

where k < sub > B </ sub > is Boltzmann's constant in joules per kelvin, T is the resistor's absolute temperature in kelvins, and R is the resistor value in ohms ( Ω ).

where k < sub > B </ sub > is Boltzmann's constant.

0.004 seconds.